Next Article in Journal
Processing Dross from Hot-Dip Galvanizing by Chlorination Roasting
Previous Article in Journal
Condition Diagnosis of Long-Span Bridge Pile Foundations Based on the Spatial Correlation of High-Density Strain Measurement Points
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
Sustainability
Volume 13
Issue 22
10.3390/su132212529
sustainability-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Review

On the Theoretical Conceptualisations, Knowledge Structures and Trends of Green New Deals

by
Zaheer Allam
1,2,3,*,
Ayyoob Sharifi
4,
Damien Giurco
1 and
Samantha A. Sharpe
1
1
Institute for Sustainable Futures, University of Technology Sydney, Sydney 2007, Australia
2
Live+Smart Research Lab, School of Architecture and Built Environment, Deakin University, Geelong 3220, Australia
3
Chaire Entrepreneuriat Territoire Innovation (ETI), Groupe de Recherche en Gestion des Organisations (GREGOR), IAE Paris—Sorbonne Business School, Université Paris 1 Panthéon-Sorbonne, 75013 Paris, France
4
Graduate School of Humanities and Social Sciences & Network for Education and Research on Peace and Sustainability (NERPS), Hiroshima University, Hiroshima 739-8511, Japan
*
Author to whom correspondence should be addressed.
Sustainability 2021, 13(22), 12529; https://doi.org/10.3390/su132212529
Submission received: 21 October 2021 / Revised: 8 November 2021 / Accepted: 9 November 2021 / Published: 12 November 2021
(This article belongs to the Topic Climate Change and Environmental Sustainability)
Browse Figures
Versions Notes

Abstract

:
The increasing impacts of climate change, coupled with the Greta Thunberg effect, the findings of the Intergovernmental Panel on Climate Change (IPCC) reports, and varied environmental policy documents, are pointing to the need for urgent and cohesive climate action and mitigation frameworks. One potent solution, gaining global acceptance, is that of the Green New Deal (GND), positioned as a radical rethinking of political and economic structures in view of pushing sustainability at the forefront of national, regional, and global issues. With the model rapidly gaining ground in various geographies, and in different forms in view of contextualization needs, there is a need to better understand its evolution, knowledge structures, and trends. This paper thus sets forth to provide an understanding of the evolution and implementation of GND through a bibliometric analysis and science mapping techniques using VOSviewer and CiteSpace to identify the thematic focus of 1174 articles indexed in the Web of Science since 1995. To understand the thematic evolution of the field over time, we divided the study period into three sub-periods, namely 1995–2014, 2015–2019, and 2020–2021. These sub-periods were determined considering important milestones related to GNDs. Term co-occurrence analyses were then conducted to understand thematic focus and associated trends. Also, co-citation analysis and bibliographic coupling were other methods applied to identify major sources, authors, publications, and countries that have made more contributions to the development of research on GNDs. The findings of this paper can help both researchers and policy makers understand the evolution and trends of GNDs to better formulate GNDs strategies and policies in accordance with varying needs and geographies.

1. Introduction

The increasing impacts and challenges of climate change are more apparent and have been widely documented, with consequences ranging from increasing incidences of heatwaves and increased precipitation, leading to flashfloods, such as those lately witnessed in Western Europe where over 200 deaths were reported in July 2021 alone [1]. Climate change is also credited for the increasing incidences of drought, especially in sub-Saharan Africa, affecting regions are experiencing food insecurity, increased cases of water shortage and numerous challenges amongst pastoralists as vast lands experience desertification [2,3], and, amongst others, visible water sea-levels threatening some coastal regions with submersion and increases in vector diseases, to name a few [4].
According to the latest report by the IPCC [5], it is possible that the climate goals set in a number of global accords such as the Paris Agreement, aimed at ensuring that global temperatures are kept below 2 °C, preferably 1.5 °C, will not materialize, affirming similar findings documented by the same body in 2018 [6]. In the latest IPCC report, it is made clear that Earth is likely to exceed temperatures of 1.5 °C above pre-industrial levels and by 2100 [5], with the possibility that temperatures will have risen by between 3 °C and 3.5 °C. This is reinforced in the Nationally Determined Contributions (NDC) Synthesis report, published on the 17 September, outlining that even though the global rate of carbon emissions is decreasing, it is expected to peak by 2030 (with a 16% comparative rate of increase to 2010 levels, suggesting an increase in temperature rise of about 2.7 °C). Hence, further efforts have been demanded by countries to achieve the Paris Agreement targets [7].
The Paris Agreement, as noted in the UN Climate change report [8], required that member parties commit to meet at least 45% reduction on their emissions by 2030, but it was found that commitments could only be achieved if each party doubled their efforts. The scenario has further been complicated by emergence of COVID-19, which Shan, et al. [9] posited would prompt a 16.4% global increase in emissions as from 2020 depending on economic stimulus governments advance in their economies. On this, the UNEP [10] reports that only 18% of all the global recovery spending has some ‘Green’ elements. Temperatures above 1.5 °C will translate to devastating climate events such as heatwaves, flooding, desertification, acidification of water sources, and tropical cyclones among others. This may be disastrous for many regions of the world, and especially for small island developing states (SIDS), where cases of forced climate migration is expected to increase with sea water level rise, with others losing considerable amount of habitable spaces, fishing ground, tourism attraction sites, and essential infrastructures, leaving little options other than to migrate [4].
Failing to meet the agreed targets in the Paris Agreement will consequently impact the achievement of other agreements, such as the sustainable development goals [11] and that of other COPs that were reached earlier. This, however, will be a result of human inducement, especially after the COVID-19 pandemic where economies have been found to revert to fossil-fuel intensive industries in their effort to revive the economies [12]. On this, Shan, Ou, Wang, Zeng, Zhang, Guan, and Hubacek [9] note that if fossil-fuel intensive activities continue to prevail, the aftermath will be a chaotic global environment that will not only be unsustainable for the current generation, but make sustainable development more difficult for future generations. As expressed by The European Commission [13], there will be need for deep re-thinking and reversal in policies to ensure global extraction of resources, production of products, and their consumption and their ultimate disposal align with sustainability agendas. Additionally, there are needs to re-assess the cost or benefits of production or consumption of goods and services in sustainability narratives, introducing the notion of ‘Negative Externalities’ where damages from pollution are not factored in. This however calls for a cohesive ecosystem re-think with respect to both consumers and producers.
One solution that emerged in 2019, and has been gaining traction in the past two years, is the ‘Green New Deal’ that was first introduced in America after years of negotiations [14], and was subsequently adopted in varying forms by numerous countries, including country blocks such as the European Union [15]. This is further explored in the next section.

2. Surveying Green New Deals

The concept of Green New Deals can be argued to be an emerging, broad, and transformative approach toward addressing a series of issues impacting modern societies. It thus aims to address climate concerns in different geographies, while attempting to solve social and economic inequalities. According to Conte [16], the idea of the Green New Deal was conceived in 2006 in the United States, under the care of a taskforce that had been formed to deliberate and propose solutions on how different sectors engage in a sustainable transition as per the concept of the ‘Global Greens’. This is interesting noting that the emergence of associated terms such as ‘Green Economy’ and ‘Green Growth’ in 1989 and 2005, respectively [17], leading to foundational precepts to the Green New Deal. However, the proposed GND, as noted above and highlighted by Mastini, et al. [18], goes beyond economic growth in relative terms and aims to address other aspects such as social, economic, and environmental justice. In fact, the concept of ‘growth’ should not be a precursor for the GND, as expressed by Mastini, Kallis and Hickel [18], as degrowth policies also need to be part of the ‘GND’ narrative. This is true, noting that some green growth pursuits also have the potential to violate absolute planetary boundaries rather than solely improving environmental capital, or at least in the preservation of existing environmental resources [19]. The main inspiration for the Green New Deal is historical; its name was borrowed to mirror President Franklin D. Roosevelt’s approach of helping the U.S. recover from the Great Depression by instating a total makeover of his government, or the ‘New Deal’ as it was called [20]. Activism on climate action began in the 1970s after the oil crisis, but progressive actions were only arguably taken in 2006 [16]. The agitation for climate change, gained more support from the political class, where some politicians with Jill Stein, a presidential candidate in 2012 and 2016 under her Green Party, banked on the climate change debate as a campaign tool for the presidential position [21]. However, the main breakthrough of the political class came in 2018 after a youthful group that was protesting on the government inaction against climate change was joined by Rep. Alexandria Ocasio-Cortez and Senator ED Markey [14], who formulated the groundwork for what became a joint resolution passed by congress in 2019. The resolution mandated the Federal Government to create a Green New Deal that would address a raft of issues, including touching on the foundational challenges of climate, economic, and social justice.
On climate, the Green New Deal (GND) as passed by the Congress targeted to have the country (U.S.) achieve net-zero greenhouse gas emissions by 2050 by adopting transition mechanisms that would not be injurious to communities or workers. The achievement of reduced emissions would be championed by ensuring the country transitions 100% to the use of alternative renewable energies in all sectors, through deep transformation of the transport sector, such as ensuring electric vehicles and mass transit systems were the main mode of transport. Since the objectives of the GND matches the calls for climate action [22], there seems to have been an increase in popularity, not just in the United States but globally, towards the model. Indeed, an analysis, represented through a line diagram in Figure 1, of the popularity of the term ‘Green New Deal’ for the period from 2008 to 2021 showcases a peak in 2019, aligning with the time of the GND passing in congress in the USA. Additionally, it is observed (Figure 2) that the first five geographies where interest by regions is peaking are: Guatemala, South Korea, Singapore, the United States, and New Zealand, respectively.
Since the adoption of the Green New Deal in the U.S Congress in 2019, there have been substantial number of other countries that have adopted similar approaches under different names, as shown in Table 1 below. Though they vary from each other, they all seem to have a convergence of intentions, especially regarding the need to reduce emissions and concentrate on attaining net-zero emissions in the future while achieving equity and inclusivity in the socio-economic fabric. In the table, China and India are included, but their commitment to reduction of emissions is not expressly defined in their Green New Deal agendas [25]. However, notable and practical actions have been taken. These include increased efforts and investments in renewable energy, adoption of technologies in their manufacturing industries, and introduction of fiscal mechanism such as the use of emission trading schemes (ETS) [26] are evident, especially in China.
Besides individual countries and regions pursuing the GND, it is interesting that there are also notable organizations that support Green New Deal policies, pushing sectoral and thematic agendas on sustainability transitions. Those are outlined in Table 2 below. Most of those are domiciled in countries and regions such as the U.S. and Europe that have already pioneered in forming models of their GND. However, even in countries such as Australia where there is no formal announcement of the GND program, from the federal government, some states within the republic are seen to actively advocate for its acknowledgement and the embracement of deep sustainable transitions [33]. However, there appears to be clear disagreement on what constitutes a ‘green deal’, especially in view of criticisms on an AUD 2 billion renewable energy project between the New South Wales (NSW) government and the federal government [34].
Bradshaw, et al. [47] note that while the concept is gaining attention, leading to a rapid acceptability and adoption in diverse geographies and quarters (specifically with civil societies pressuring legislative makers) and underlining evidence of diversification in terms of the content advanced in the different countries or regional specific models. This has led to confusion on the specific underlying principles that the varied models aim to address thus, pointing to the need for countries to first address underlying market failures, such that the GND is not seen as a knee-jerk reaction to failures that could be sorted using other means. In fact, even in country specific models, such as the Green New Deal in the U.S., there is still confusion noted from leaders from different political divides (i.e., Democrats vs. Republicans), as to who are against the deal (notably mostly Republicans, who perceive some of the issues such as social justice as being unrealistic, and hence are dismissive of the proposal) [47]. While the variations may be deemed to represent interests that different countries have in their pursuit and conviction of the best way to address climate change, rising oil prices, and unsustainable energy consumption, there is need for some uniformity in order to address common goals and principles. This is affirmed when a critical consideration of models such as the EU’s Green Deal, which will be expanded beyond EU as explained by Dartford [48]. While the intention is deemed as sincerely aiming at ensuring that Europe’s pursuit of climate action is achieved, it may have deeper implications as the region’s trading partners may not have any contextual plans for GND. The resulting implications from both the trading partners and the EU may be hostile with institution of stringent measures that may somehow disrupt the existing trading relationship. In the case of countries in the global south that in some ways rely on their counterparts on the global north, they may be inevitably forced to agree to some measures, which sometimes may be incoherent with their domestic policies. On this, Táíwò [49] argues that some of the policies engendered in the New Green Deal and other models, if they are eventually formalized to become guiding policies, have the potential to increase inequalities, akin to what scholars coin as being ‘climate colonialism’ [50]. While examples would vary in accordance to contextual needs and capacities, there are notable needs by countries for land and financial resources to develop renewable energy plants as alternatives for fossil fuel plants. This is further represented in the NDC Synthesis Report [7], stating the popularity of renewable energy projects, as a means to curb climate change, amounts to 84% in countries around the world. While this measure is welcomed globally, most economies in the global south may have sufficient land, without the associated financial capacities to support nationwide projects, and thus often rely on debt financing, grants, and other such sources [51,52,53]. This conventional approach could force nations to secure more debts, increasing an unsustainable dependency on developed economies, leading to the arguments of ‘neo’ and ‘climate’ colonialism [54]. In this case therefore, economies in the global south, just like is the case with their counterparts on the north should be allowed to pursue and craft their own sustainability plans, addressing their unique challenges, as well as allowing them to align with their commitments as per the Paris Agreement as well as SDGs (and hence calling towards contextualized models for Green New Deals).
While pursuing proposals for new models that would somehow apply conventionally (and hence acceptability in countries and by different organizations), it will be paramount to understand the underlying issues pertaining GND in terms of how it emerged, its evolution, and trends. This is particularly important in a time where GNDs are politically equated as an ‘ecology-centered’ economic stimulus program, which can help significant political attention [55]. This is key, especially when GNDs can be viewed as a strong narrative to help economic growth, hence posing as a self-funding mechanism to the crucial question as how to finance transitions. From this perspective, proponents of GNDs are largely unaligned with those of degrowth who argue growth makes it more difficult to accomplish emissions reductions [18]. This interestingly builds an alignment of agendas on GNDs between both the environmental and political class, with the agenda of economic growth as a mutual ground. Additionally, funding transitions across multiple sectors are required, and in this regard numerous innovations need to be fostered, which can also lead to white space opportunities for corporates. This is leading to emerging Green funds, aligning with the underlying GND theme, applicable at both national and regional levels, and which could provide some reprieve to global south economies without capacities to fully finance GNDs agendas.
In view of the above, countries looking at engaging in GND agendas will need to craft contextualized policies aiming at solving an array of socio-economic challenges, while introducing economic stimulus programs across numerous sectors. Of interest, would also be the careful drafting of policies to tap into emerging policies and green funds, a criteria which would be particularly key to developing and least economies and small island developing states, which often do not have the capacity to finance green transitions [53,56].
To align with this constant shift in global policies, including in view of the current COVID-19 pandemic (at the time of writing), there is a need for an updated review of literature on GNDs and associated strategies for Green Growth, as new economic challenges present itself, causing larger inequalities and posing a threat to long term sustainability agendas [57]. In view of this, a macroscopic perspective is required on the larger themes, providing an overview of its evolution over time, including during the pandemic period, to better understand past, current, and future directors. This paper thus, through a bibliometric analysis, undertakes to advance our knowledge on GNDs to present findings that can help countries seeking to associate with GNDs would have substantial information, leading to the potentiality of crafting models with the potential to address local priorities and challenges.

3. Methods

Keeping pace with the rapid growth of scholarly publication has made literature review challenging in the recent years. One way to deal with this challenge is utilizing bibliometric analysis techniques that allow gaining an overview of specific fields. Such macroscopic overviews can be used to highlight major thematic focus areas and research trends. Various bibliometric analysis software tools such as SciMAT, CiteSpace, and VOSviewer have been developed in the past two decades. All of these tools can be used to explore thematic evolution and identify keys authors, references, and sources. VOSviewer was used for the purpose of this study since it has a user-friendly interface, the outputs are more suitable for identifying and analyzing thematic clusters, and it can also provide detailed information on influential authors, references, sources, countries, and institutions [58]. Input data for bibliometric analysis using VOSviewer can be obtained from academic databases such as Scopus and the Web of Science (WoS). Here, we used WoS, given its broad coverage of quality peer-reviewed articles related to the topic. In addition. WoS bibliographic outputs are more compatible with VoSviewer and allow obtaining more detailed results. To retrieve literature relevant to GNDs, we developed the following broad-based search string that includes different related terms: TS = (“New Green Deals” OR “New Green Deal” OR “Green New Deal” OR “Green Deal” OR “Green Recovery” OR “Green Growth”). Using this search string in the WoS on 5 August 2021, returned 1403 articles. It should be noted that we only searched for English articles and the search period was not restricted (i.e., all papers indexed until 5 August 2021, were considered). We screened the titles and abstracts of these articles and 1174 articles related to the aims and objectives of this study were selected for final analysis in the VOSviewer. Three types of analyses are used in VOSviewer to map knowledge structure and trends. These are, namely, bibliographic coupling, co-citation analysis, and term co-occurrence analysis. Van Eck and Waltman [58] describes bibliographic coupling as “a link between two items that both cite the same document”, where it can be used to identify major contributing countries and institutions and their interactions. Furthermore, co-citation links are described as “a link between two items that are both cited by the same document” [58]. As citation frequency is widely considered as a measure of scholarly impact, results of co-citation analysis are used to identify the most influential authors, publications, and sources. Finally, a term co-occurrence analysis is used to identify major thematic focus areas of the field. In addition to highlighting major terms, this analysis also provides information on important thematic clusters within the field. As one of the aims of this study was to explore thematic evolution over time, we divided the study period into three sub-periods considering major milestones that may have influenced the evolvement of the field and the total number of papers published in each sub-period. The first period started on 1995, coinciding with the introduction of the Environmental Bill of Rights to the U.S. Congress [59], this being a major milestone leading to subsequent green policies and increasing research in the area.
As shown in Figure 3, there has been a surge in the number of publications around 2015. This could be linked to the introduction and adoption of international policy frameworks such as the Paris Climate Agreement and the 2030 Agenda for Sustainable Development in 2015. Accordingly, 2015 was designated as the first milestone. The figure also shows another surge in 2020 which could be linked to the emergence of the COVID-19 pandemic. Based on these milestones, the study period was divided into three sub-periods, namely 1995–2014, 2015–2019, and 2020–2021. In addition to an overall term co-occurrence analysis, we conducted separate term co-occurrence analyses for the three study periods to understand thematic evolution. Outputs of all VOSviewer analyses are presented as a network of nodes and links (e.g., see Figure 4). The node size is an indication of the relative importance. For instance, in case of term co-occurrence analysis, node size is proportional to the frequency of term occurrence. Also, link width is proportional to the strength of connection between the two terms. Terms that are closely linked to each other form clusters that indicate thematic focus areas.

4. Results and Discussions

4.1. Countries Making the Most Contributions

The analysis supports that, as illustrated in Figure 3 above, the USA, the People’s Republic of China, England, and Germany are the most popular contributors to the GND debate with 176, 156, 163, and 99 documents respectively. This is evident by the size of the nodes, which in this case the four countries have the largest (as per the number of documents noted above). The popularity of GND was further observed to be gaining traction in countries such as the Netherlands, France, Italy, South Korea, Australia and Spain and Poland. The green cluster is seen to have received much attention, followed by the red cluster, while the blue cluster comes third.
From the literature, the result obtained in Figure 3 are not surprising as the current global pressures towards the adoption of a Green Deal have been seen to concentrate more in the USA and European zone. For China, as noted by Bradshaw, Ehrlich, Beattie, Ceballos, Crist, Diamond, Dirzo, Ehrlich, Harte, Harte, Pyke, Raven, Ripple, Saltré, Turnbull, Wackernagel, and Blumstein [47], although there is no formal agenda that can be equated to the Green New Deal, there has been an increase in attention toward activities pointing toward a reduction of carbon footprint. The increased attention and research focusing on China may be due to the fact that it is the leading emitter of carbon emissions, accounting for almost 24% of the global emissions [47]. Further, being the leading country in investment on renewable energy may have contributed to increased attention on its focus on matters relating to the adoption of deeper measures, aligning with the Green New Deal. The attention in the USA also maybe multi-pronged. First, since the 1970s (as reported by Conte) [16], there has been numerous calls, proposals, and agitations for the country to adopt climate actions to avert its impacts on the environment, economy and communities. Secondly, as was expressed by Bradshaw et al. [47], it is ranked the second globally in terms of global emissions, and its commitment to global accords such as the Paris Agreement, especially in view of the previous government policies on the same, may have triggered an increased interest. Thirdly, it is the first country to have a realistic Green New Deal formulated and discussed at a congressional level [14], thus drawing global attention. In the case of England, its contribution to the discourse on GND (or Green Deal as it is known in Europe) ranks it top among European countries. From the literature, it is noted that though the Green Deal will impact the entire of European region and beyond, England, would be a major beneficially due to focus on areas such as green spaces and improvement of air quality that was noted to be fairly poor compared to its counterparts in the region [28]. Further, being the main trading partner with its European counterparts, it is understandable that the Green New Deal would impact their trading relationship. Thus, interest in understanding how the deal works would influence policies in the country.

4.2. Most Influential Organisations

Organizations were clustered into three groups depicted in distinctive colors, represented in Figure 5. The red cluster comprise of 12 organizations with larger nodes that are closely linked noting the thickness of their link lines. The blue cluster is located far right, with only three organizations (Vrije University, University Autonoma Barcelona and ICREA with 14, 14, and 11 documents each) therein with each of them having fairly large nodes and close link between themselves. However, this cluster is far linked from the rest of the clusters. The green cluster is comprised of nine organizations that are closely linked to each other but with smaller nodes, indicating that the number of publications from those organisations were fairly few compared to those obtained in other clusters. For instance, INHA University, Macquarie University, Beijing Normal University and University Manchester all had eight documents published.
From the literature review, the European Commission (EC) has been identified as one of the organizations that eventually managed to bring into fruition the Green Deal agenda in Europe, and from the diagram above, it had very close link with numerous learning institutions. This could explain why most of the documents that could have shaped the GND document emanated from the institution. From the results obtained, the close link between EC and other organizations clustered in red is not surprising as most of these are mostly based in Europe, save for Seoul University. This confirms that the European Green Deal emanated from different environmental knowledge shared, exerted from different quarters in the region, specially from learning institutions. This is true following realization that, indeed, there are notable concerns with issues such as increasing emission levels from the region [47], the unsustainability of the economy due to some sectors still relying on non-renewable energy sources [62], and the increasingly observable cases of social inequalities in the region as document in a report by Bubbico and Freytag [63]. One clear observation from the results above is that most of the organizations are learning institutions drawn from Euro-zone save for the few drawn from Korea, the World Bank, and the European Commission. From the analysis, the U.S. and Europe can be noted as the only two to have clear-cut GNDs. In America, the political class drawn from both the Democrats wing and other smaller parties have been credited for pushing for the realization of GND and this could be due to the fact that other institutions, such as NGOs and learning institutions are not as coordinated in research and policy work, as is the case with Europe. However, the results from Europe highlight the influence the learning institutions can have in shaping and influencing for meaningful changes in the society. Whereas it may be construed that the topic on GND is not widely understood in the public domain, hence, justifying why most organizations pushing for actions to be taken are learning institutions, evidence from the literature show otherwise. On this, youth movements [64,65], UN bodies such as the UNFCCC [66,67,68] and the IPCC [5,69], and other bodies, have been clear on their position on climate change. However, it is also important to appreciate that adopted GND models do not only concern the environment, but encompasses other cross-cutting issues, that learning organization, the World Bank, the EC and other organizations keenly supporting. This showcases a global consensus on expanding the GND to touch on socio-economic dimensions, hence using the rational for approaching the environment as an underlying foundation to regenerate societies.

4.3. Most Influential Journals

As depicted in Figure 6 below, the influential journals are grouped into three clusters depicted in green, blue, and red colors. The red cluster represent those associated with energy, where journals touching on this topic were popular. For instance, journals ‘Energy Policy’ and ‘Journal of Cleaner Production’ had 1810 and 1496 citations, respectively. This cluster contained 20 journals represented by nodes that closely linked, except for the journal ‘Energy and Buildings’. The green cluster contained 17 journals, represented by nodes that also fairly closely linked. The most popular journal in this cluster was that of ‘Ecological Economics’, cited over 1078 times and had over 29,224 links. The blue cluster contain nine journals, with the most popular being ‘Energy Economics’ with 589 citations and a total of 18,148 links. This cluster had most of the journals with least citations, with most of them seen to be more linked to the green cluster than with the red cluster.
The concentration of activities in the journals related to the energy sector is unsurprising considering the amount of effort, mobilization, and resources that have been directed toward a global shift from fossil fuels to renewable energy. In particular, from the literature, it is evident that global efforts are now amassed with energy policies, especially emanating from COP meetings, which started as early as the 1990s, the popular policy frameworks being the Kyoto Protocol (1997) [66] and the Paris Agreement (2015) [67]. These groundbreaking policies are aimed at guiding global economies in their pursuit to addressing climate concerns to ensure that global temperatures do not rise above 2 °C pre-industrial level by 2030 [6]. While the two popular GND models (American and European) covers more than just the energy sector, it is clear than the debates and publication on the energy sector greatly shaped and will further influence policies on existing and emerging Green Deals. The increasing popularity of journals related to energy in terms of citations and linkages shows that over the years, scholars have increased their attention on matters environment more so on the impacts of emissions from the energy sector. What is surprising from the results obtained is the reduced popularity of journals inclined to social and economic aspects, especially noting that Green Deals are also focused on how pursuits of social welfare in areas such as housing, water extraction and consumption and others contribute to sustainable environments. Further, it is evident (as documented in the Circular Economy Action Plan for Europe [13]) that the GND, especially the European Green Deal, is focused on changing the economic model of the region to accommodate a circular to advance the concept of sustainability, innovation, and technology use in the energy production and others.

4.4. Most Influential References

A total of 38 most influential references were identified and listed for this analysis. The results are presented in Figure 7, which has three clusters identifiable by three colors (red, blue and green), with 15, 10, and 11 references, respectively. Two references, (Dowson, et al. [70] and European Commission [71]) had zero links. Thus, they are not present in the diagram. In terms of influence, documents by the United Nations Environment Programme [72] and the World Bank [73], having a total of 158 and 171 citations respectively, are seen to dominate. All these are identified under the blue cluster just near the center of the diagram due to the extensive relationship that the energy sector (blue cluster) has with themes such as climate change and sustainability (red cluster) and the concept of green growth (green cluster). Table 3 below maps the major references, showcased in Figure 7.
From the literature, it is evident that while themes in sustainability and green growth are gaining in popularity, they are guided by policies and frameworks emanating from bodies such as the United Nations Environment Program (UNEP) and the World Bank, thus justifying their influence in shaping the discourse on GND. In particular, these bodies have been observed to be consistent in advocating for green growth and have been financing diverse programs and projects across the globe aligning with the Green concept. For instance, in the article by the World Bank [73], the clarion call is for an inclusive Green Growth that would ensure that the 9 billion people that will occupy the world by 2050 would not be disadvantaged by agendas of the current generation. Adding to this, is the noticeable need to include the private sector in the common objective of sustainable transitions [74], and to introduce ‘Corporate Social Responsibilities’ (CSR) as key agendas [75]. To ensure that the objective of having a sustainable future is achieved, those noted organizations are observed to advocate for policies that not only address the environment and climate issues alone but extend to social and economic dimensions to ensure that prevailing issues such as inequalities, exacerbating unsustainable pursuits are minimized. In support of the discourse advanced by those institutions, many publications touching on sustainability, more so in the energy sector are seen to be increasing; thus, justifying why the red cluster has a substantial number of influential references. From the literature, it is evident that there have been numerous calls, including through global accords such as the Paris Agreement for economies to shift to use of renewable energy as alternative for the fossil fuel to reduce emissions, at least to guarantee that temperatures would not rise beyond 2 °C. This increase on publication on energy, as from 2014, as shown in Figure 7, showcases that as talks about the Paris agreement intensified, researchers worked to complement to policies to potentially influence future directions, such as the formulation of the GND, gaining traction in this dispensation.

4.5. Most Influential Authors

The authors who have had more influence on the GND discourse are presented in Figure 8 below. These are clustered in four distinctive groups symbolized by red related to sustainability and climate change, blue representing energy themes, green encompassing issues on green growth and yellow on the subject of climate neutrality with direct links to Green New Deals. The results showcase that the most popular authors are institutions such as European Commission, OECD, the World Bank, and UNEP. However, on average, the blue cluster is seen to have larger nodes, that are closely linked, followed by the green cluster and red cluster, respectively. The yellow cluster encompassing only five authors has EC as the most active author. Others in this cluster (CBC, Eurostat, FAO, and UN) are cited only the least, and are also least linked. Individual authors are seen to be more popular in matters of Sustainability, Climate Change, and Green Growth.
The results presented above showcases that the theme of Green New Deal comprises of diverse thematic areas, and those academicians drawn from different fields enrich the discourse on this matter. In particular, authors interested in Green growth, sustainability and climate change are seen to be more popular, than those concentrating on new Green Deals. Probably, the reason for this inclination is due to the fact that the three popular themes are more inclined on impacts, which are well known, unlike the GND, which can be argued to be still new and is yet to gain a widespread recognition by most people, organizations, and institutions. For instance, Steffen, et al. [76] who were exploring matters of planetary boundaries in response to sustainability agendas are seen to have been cited over 7743 times despite their article having been published in 2015. Same case with an article by Guo, et al. [77] who exploring the relationship between technological innovation and the environmental regulations in influencing green economic growth. The article has been cited over 132 times and linked over 54 times though it was published in 2017. This shows that topics related to sustainability, green growth, climate change and energy are becoming popular, especially in relation to how modern trends such as technological applications are incorporated. This augurs well with the proposals in the GND models, especially in the economic dimension, where the circular economic approach is being pursued [78]. It is evident that circular economy pursuits highly supported an extensive application of technologies in areas such as production, extraction of resources and in recycling processes to ensure an extended lifecycle of products [79], and even though the concept is noted to receive increasing global attention. In view of its merits, there are notable challenges as to its inclusion in vulnerable groups [80].

4.6. Term Co-Occurence

4.6.1. All Periods

Results of the term co-occurrence analysis for the whole study period are shown in Figure 9 below. The terms were categorized and clustered into three groups. The red cluster categorizes terms associated with climate change and sustainability, while the blue cluster encompasses terms associated with green growth. The green cluster was dedicated for terms associated with application of technologies and policies to foster economic growth. The red cluster had a total of 25 terms, with key terms (according to size of their node) including sustainability, which deemed to be more closely associated with terms such as green growth and green economy from the blue cluster. The term climate change was almost centrally positioned as shown in Figure 8 and is seen to be associated with terminologies from both the green and blue clusters. The green cluster had a total of 15 terms, with policy, economic growth and efficiency being the main ones and seemed to be closely linked with other terms in this cluster and from the blue and red cluster as well. Other terms that were popular in this category include efficiency, innovation, impact, technology, renewable energy, China, and CO2. The blue cluster had only six terminologies, with the key one being green growth, which is seen to be closely associated with major terminologies such as sustainability, climate change, energy, Green New Deal and others from the Red cluster. Likewise, it has close links with terms such as Economic Growth, Impacts, Model Performance, Innovation, and Efficiencies from the green cluster.
From the literature, it is not surprising that terms such as green growth, sustainability, climate change, policy, economic growth and energy seem to have been very popular and closely associated over the period in question (1995–2021). It is worth noting that it is within this period that global community had come together to form the COPs with the first meeting happening in March 1995 [81]. Therefore, it is no coincidence that the key terminologies especially in regard to climate change and need for green growth seem to be predominant. Further, the co-occurrence of the terms such as policy, energy economic growth, sustainability and climate change may have been influenced by the global discourse that was then focused on the urgent need for introducing policy framework such as the Kyoto Protocol targeting sectors in the economy, such as energy production, sustainable agriculture, equitable economies, with no or minimum market imperfections and others [66]. Successful global meetings, and the introduction of key global agreements such as the Paris Agreement [67], the Sustainable Development Goals [11], New Urban Agenda (NUA) [82], and the Agenda 2030 on Sustainable Development [83] have prompted an emergence of new terms such as mitigations, Green Deal, circular economy and others. The dominance of the co-occurring words such as green growth, sustainability, climate change and energy and others show that the global agendas associated with those are still on course; hence, as more calls continue to stress upon the need to address global climate challenges, those terms will continue to gain in popularity. However, when studying the terms more closely in three distinct periods, we are offered with interesting insights as to their evolution across time. This is expanded in the three sections below.

4.6.2. First Period (1995–2014)

During the period 1995–2014, a number of terminologies related to the topic of GND, as shown in Figure 10 below, were already popular with most academicians. A total of 34 key terminologies were identified during this period, classified into three clusters; the red representing sustainability and climate change, the blue encompassing terms such as Green Growth, Developing Countries, and others commonly associated with the economic growth and development. The green cluster with 14 terms is observed to focus on technology, environment and innovations. The key terminologies during this period included Green Growth, Sustainability, Climate Change, Policy and Energy. However, other geographies that had begun attracting substantial attention during this period includes China and South Korea, the latter aligning with the findings of the geographical popularity as represented in Figure 2, where South Korea was noted as being the region attracting the most interest for GNDs. It is further noted that those two regions showed a particularly high interested in the terms Green Growth, Growth, Technology and Environmental Sustainability. In the sustainability and climate change discourse, terms that gained popularity include Renewable Energy, Institutions, Management, and others. Regarding technology and innovations, terms that were seen to be attraction attention, but were not yet linked to sustainability and economic growth include housing, efficiency, innovations, and others.
From the analysis, it is not surprising that already, terms such as Climate Change, Green Growth, Sustainability, Policies and Energy were already popular and co-occurring in discourses touching the three thematic areas related to GND. Within this period, as expressed by FAS, countries such as China and South Korea were experiencing unprecedented growth, courtesy of technology and innovations that were popular in those countries. The growth in China begun in the 1970s, and by the 1990s had become a major trade destination, attracting over 445,244 foreign direct investments (FDIs) businesses in the 1990s [84]. The increase in trade was inspired by the deployment of advanced technologies in different sectors. In Korea, which is also seen to have drawn the attention of authors, as from 1995 onwards, its growth is observed to have recovered from an unprecedented decline at the beginning of the 1990s [84]. It is reported that the country had embarked on technological deployment in different sectors, and by 1996, the country had started to grow by 7.1% [85].
Growth was not only being experienced in this region alone, but other countries such as the U.S are also reported to have experienced strong growth. Such economic activities across the globe were prompted by the recovery strategies that countries had embarked on as they tried to recover from the 1990s recession [86]. As a result, coupled with ongoing environmental pressures, usage of non-renewable energy was experienced in countries such as China and the U.S. which had only 7% renewable energy with the rest coming from fossil fuel 24%, coal 23% and natural gas (23%) [87]. As a result, concerns about climate change intensified, prompting the formulation of the Kyoto Protocol that came into force in 1997 [66]. The economic growth that was being experienced prompted emergence of housing programs, especially low-cost housing in many developing regions, especially in Asia and North America; as disposal income following increase in wages started to rise [88]. Through innovations, affordable housing became the trend, and countries such as the U.S., Canada, Singapore, and others were in a rush to ensure their citizens, whose numbers were also increasing, especially in urban areas were housed [88]. However, in the course of pursuing housing projects, it is noted that concerns arise on energy efficiency and the need for the adoption of alternative clean energy. That being said, it is noted that the concept of ‘green’ was still not popular during this first period as showcased in the diagram (Figure 10) above.

4.6.3. Second Period (2015–2019)

During this period, as depicted in Figure 11 below, the number of terminologies increased significantly to cover emerging issues. These terms are categorized in three groups, represented by red, blue and green clusters. The red cluster captures all the terminologies directly associated with sustainability and climate change while the blue cluster is dedicated for all terminologies with greater inclination to Energy Production, Consumption, and Impacts. The green cluster encompasses terms focusing on Green Growth, as influenced by factors such as Technology, Policies and Innovations. During this period, it is evident that all the terms recorded in the first period (1995–2014) are still present here and have been reinforced by the emergence of new terms. In the red category, it is evident that new terms such as: Impacts, Cities, Power, Productivities, Transmission and others had become common, and are occurring in document focusing on all three thematic areas. Similarly, in the green cluster which was presented as the Blue cluster in the first period, in addition to the six terms that were recorded then, numerous more terms emerged during this second period. Notable new terms here include Green Economy, Europe, Renewable Energy, Emissions, Scenarios Behaviours, SDGs and others. In the Blue cluster, the number of terms that emerged were not many compared to other clusters. They include Innovation, Buildings, Retrofit and UK. This aligns with the need of not only introducing more sustainable policies for new building stock, but also to retrofit existing ones, so as to ensure a more sustainable built environment [89].
The terms Policy, Efficiency, Innovation, Green New Deal however are seen to have become slightly more popular during this period, and also highly linked with terms such as Energy, Renewable Energy, Technology, Impacts, Green Growth and others.
From the analysis, it is observed that this second period experienced major breakthroughs in the discourse on Sustainability, Equitability and Economic Growth. It is during this period that the Paris Agreement (2015), Sustainable Development Goals (SDGs) 2015, the Agenda 2030 for Sustainable Development (2015), the New Urban Agenda (2016), the Green New Deal (American model) 2019, and others were formulated, and where some are already in force. In fact, there has been numerous meetings on different agendas, especially on environment and sustainability during this period, with a large number of publications published, including notable documents such as the SDGs and the Paris Agreement. During this period still, it became apparent that the world was experiencing increasingly pressures from the (still) unprecedented challenges of climate change, impacting mostly vulnerable economies such as least developed countries (LDCs) and small island developing economies (SIDS) [4]. It is during this period also that sustainability agendas increased more with areas such as urban planning being at the forefront, with urban models such as sustainable smart city models being adopted in numerous geographies, including Songdo, South Korea [90]. Other cities include Singapore [91], Barcelona [92], and other parts of the world that have transformed, courtesy of the proliferation and ubiquity of smart technologies [93,94,95]. Such activities saw an increase in the academic arena with numerous co-occurring terminologies increasing and covering different aspects of Sustainability, Growth, Economy, Climate Change, Technologies and more. With the global population increasing at an average of 140 million per year since 2015 as expressed by Roser, et al. [96], substantial changes in different global sectors were observed, especially as demand for services such as energy, transport, manufactured products and other increased. These then prompted the need for policy interventions to ensure that as consumption continued, identified themes such as sustainability, Conservation, and Supply Chain Management were noted, as captured in the Paris Agreement and the New Urban Agenda (NUA) documents [82].

4.6.4. Third Period (2020–2021)

Analysis of the period 2020–2021, as shown in Figure 12 below, further highlighted the consistency of increased terminologies shaping the discourse on GND, within the three thematic areas of sustainability and climate change categorized under the red cluster. The second thematic area is energy and renewable energies highlighted in the blue cluster, while the third thematic area categorized under the green cluster encompassing terms focusing on Green Growth, Economic Development and Technologies. The results here show that like in the previous periods (1995–2014 and 2015–2020), new terms arising from global trends emerged. These include Green Recovery, COVID-19, Agriculture, Biodiversity, Bioeconomy, Circular Economy, EU-Green Deal, Storage, Photovoltaics, Energy Transition, GHGs, LCA, Determinants, Countries, Empirical Evidence, Panel Data, Environmental Kuznets Curve and Decoupling among others. Some other terms that were common in the previous period but were no longer popular include South Korea, Behavior and Productivity.
From the analysis, this period portrayed mixed results for the global environment, and the discourse on sustainability, as a result of outbreak of COVID-19 early 2020 [57,60]. On the one hand, measures instituted in different countries and regions saw a reduction of activities in major sectors such as tourism, transport, manufacturing, education, hotels and hospitality industry and in retail among others, resulting into drastic reduction in emissions; by approximately 6.4% equivalent to 2.3 billion tons of CO2 [97]. However, the pandemic also resulted into unprecedented plummeting of the global economic growth; estimated at around 3.5% by IMF [98], and more so in developed economies. Thereafter, in the third quarter of 2020, countries started to ease COVID-19 restrictions and gradually started to strategize on how to get back their economies into track, thus sparking fears that some would overlook their climate commitments and revert to the use of non-renewable energies. This may explain why terms such as Energy Transition, Decarbonization, Photovoltaic Climate Policy, GHGs, Environmental Sustainability, Panel Data and others have emerged co-concurrently with the existing ones. On this, there has been calls for economies to consider embracing renewable energies in their COVID-19 recovery plans, with solar photovoltaic being championed, especially after notable advancements in the technologies used in making solar panels and other components such as storage batteries helped reduce the prices thereof [99]. During this period also, the EU Green Deal was proposed [15], with proposals of formally adopting the circular economy concept as a means to changing the economic profile of the EU region. According to Dartford [48], this deal impacts the relationship between the EU and its trading partners, more so in respect to the sustainability aspects of raw materials and products exported from and to Europe. The bottom line during this period was for economies to emphasize on green growth, positing as a strong approach for positive impacts even for LCDs and SIDS, observed to be struggling financially due to the debt crisis exacerbated by the impacts of COVID-19 [100,101].
The focus is on implementing policy frameworks that would encourage economies to continue investing in sustainable pathways, as in renewable energy and increased use of technologies in areas such as urban planning. This, as noted by the World Bank [102] will promote a gradual economic recovery, while at the same time ensuring that the global 2030 targets for reduction in emissions are not overlooked. This, as highlighted in Figure 11, could explain why terms such as Impacts, Policies, Green Growth and Innovations are co-occurring almost at the center, showing that issues on Sustainability, Economic Growth, and Social Pursuits are gaining more popularity and co-occurring in cross-cutting in different disciplines.

5. Conclusions

This study, through the performance of a bibliometric analysis, explores the theme of Green New Deals and maps out their theoretical conceptualizations, knowledge structure, and trends across different time scales and publications. One limitation of this approach is that is caters for documents only indexed in academic milieus, in this case Web of Science, and hence omits grey literature. However, this focus on academic literature does not skew the results, as the large sample size of 1174 articles provides a robust dataset which, when analyzed, provided a deeper understanding of the evolution of the concept and can further provide researchers and policy makers with knowledge on how to better craft effective and contextually appropriate GND models. It is noted that GND adoption at a policy level is still in its infancy stage and is expected to keep gaining in popularity in the coming years, especially in view of the challenges brought about by the COVID-19 pandemic, underlining adequate and urgent economic responses aligning with national and international commitments to sustainability policies and agendas, including the Paris Agreement and the 2030 Agenda for Sustainable Development. This subject is thus expected to gain in popularity among academic circles, which will lead to further popularization and adoption. The paper further underlines that while the subject of the Green New Deal varies in interpretation, there is a strong convergence towards universally agreed principles, such as ‘green growth’ and ‘green economy’, thereby showcasing foundational precepts to the concept which can then be tailored to varied contexts in accordance with their needs and agendas. As avenues for future research, the mapping of the foundational elements of varied GND models and frameworks could be extremely interesting, and could potentially lead towards a global GND framework and application roadmap, contextualized for implementation in different economies. Finally, in view of global discussions on deep decarbonization needs at the Conference of Parties (COP) 26 at Glasgow in November 2021, aligning with the increasing need for climate financing at both local and regional levels, it could be topical to engage in metanalyses of sustainability transition models along with GND evolutions to try to map and understand what would be the most contextually appropriate GND models (accompanied with financial tools) per geographies and socio-economic groups. The topic of financing sustainability transitions will be made extremely important, and it will provide adequate research attention on this subject, rendering more effective policy outcomes aimed at accelerating much-needed sustainability transitions.

Author Contributions

Conceptualization, Z.A.; methodology, Z.A. and A.S.; validation, D.G. and S.A.S.; formal analysis and data curation, Z.A. and A.S.; writing—original draft preparation, review and editing, Z.A., A.S., D.G., and S.A.S.; supervision, D.G. and S.A.S. All authors have read and agreed to the published version of the manuscript.

Funding

This research is supported by an Australian Government Research Training Program Scholarship.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Davies, R. Western Europe—Storms Case Floods in Switzerlnd, Germany and UK. Available online: https://floodlist.com/europe/storms-floods-switzerland-germany-uk-july-2021 (accessed on 10 August 2021).
  2. Inman, E.N.; Hobbs, R.J.; Tsvuura, Z. No safety net in the face of climate change: The case of pastoralists in Kunene Region, Namibia. PLoS ONE 2020, 15, e0238982. [Google Scholar] [CrossRef] [PubMed]
  3. Chiang, F.; Mazdiyasni, O.; AghaKouchak, A. Evidence of anthropogenic impacts on global drought frequency, duration, and intensity. Nat. Commun. 2021, 12, 2754. [Google Scholar] [CrossRef] [PubMed]
  4. UNEP. Emerging Issues for Small Island Developing States; UNEP: Nairobi, Kenya, 2014. [Google Scholar]
  5. IPCC. The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change; Cambridge University Press: Cambridge, UK, 2021; in press. [Google Scholar]
  6. Intergovernmental Panel on Climate Change. Global Warming of 1.5 °C: An IPCC Special Report on the Impacts of Global Warming of 1.5 °C Above Pre-Industrial Levels and Related Global Greenhouse Gas Emission Pathways, in the Context of Strengthening the Global Response to the Threat of Climate Change, Sustainable Development, and Efforts to Eradicate Poverty. Intergovernmental Panel on Climate Change. 2018. Available online: https://www.ipcc.ch/site/assets/uploads/sites/2/2019/05/SR15_SPM_version_report_LR.pdf (accessed on 1 September 2021).
  7. UNFCCC. Nationally determined contributions under the Paris Agreement: Synthesis report by the secretariat. In Proceedings of the Conference of the Parties Serving as the Meeting of the Parties to the Paris Agreement, Glasgow, Scotland, 17 September 2021. [Google Scholar]
  8. United Nations Framework Convention on Climate Change. Synthesis report on the aggregate effect of the intended nationally determined contributions. In Proceedings of the Report of the Ad Hoc Working Group on the Durban Platform for Enhanced Action, Paris, France, 30 October 2015; p. 66. [Google Scholar]
  9. Shan, Y.; Ou, J.; Wang, D.; Zeng, Z.; Zhang, S.; Guan, D.; Hubacek, K. Impacts of COVID-19 and fiscal stimuli on global emissions and the Paris Agreement. Nat. Clim. Chang. 2021, 11, 200–206. [Google Scholar] [CrossRef]
  10. UNEP. Are We on Track for A Green Recovery? Not Yet. Available online: https://www.unep.org/news-and-stories/press-release/are-we-track-green-recovery-not-yet (accessed on 20 September 2021).
  11. United Nations Development Programme (UNDP). Sustainable Development Goals; UNDP: Geneva, Switzerland, 2015; p. 24. [Google Scholar]
  12. Le Quéré, C.; Peters, G.P.; Friedlingstein, P.; Andrew, R.M.; Canadell, J.G.; Davis, S.J.; Jackson, R.B.; Jones, M.W. Fossil CO2 emissions in the post-COVID-19 era. Nat. Clim. Chang. 2021, 11, 197–199. [Google Scholar] [CrossRef]
  13. The European Commisision. Circular Economy Action Plan: For a Cleaner and More Competitive Europe; European Union: Luxembourg, 2020; p. 28. [Google Scholar]
  14. Congress. 116th Congress 1st Session: H. RES. 109. 2019. Available online: https://www.congress.gov/bill/116th-congress/house-resolution/109 (accessed on 1 September 2021).
  15. European Commission. The European Green Deal: Questions & Answers. Available online: https://ec.europa.eu/commission/presscorner/detail/en/QANDA_19_6690 (accessed on 23 February 2021).
  16. Conte, N. Green New Deal. Available online: https://wtpartnership.co/green-new-deal/ (accessed on 24 February 2021).
  17. UN. Green Economy. Available online: https://sustainabledevelopment.un.org/index.php?menu=1446 (accessed on 2 September 2021).
  18. Mastini, R.; Kallis, G.; Hickel, J. A Green New Deal without growth? Ecol. Econ. 2021, 179, 106832. [Google Scholar] [CrossRef]
  19. Dercon, S. Is Green Growth Good for the Poor? University of Oxford: Oxford, UK, 2011. [Google Scholar]
  20. Daniels, R.; Franklin, D. Roosevelt: Road to the New Deal, 1882–1939; University of Illinois Press: Illinois, IL, USA, 2018. [Google Scholar]
  21. Atkin, E. The Democrats Stole the Green Party’s Best Idea. Available online: https://newrepublic.com/article/153127/democrats-stole-green-partys-best-idea (accessed on 23 February 2021).
  22. Bloomfield, J.; Steward, F. The Politics of the Green New Deal. Political Q. 2020, 91, 770–779. [Google Scholar] [CrossRef]
  23. Google Trends. Green New Deal: 2004 to 2021. Available online: https://trends.google.com/trends/explore?date=all_2008&gprop=news&q=%27green%20new%20deal%27 (accessed on 29 August 2021).
  24. Google Trends. Green New Deal. Available online: https://trends.google.com/trends/explore?date=all_2008&gprop=images&q=green%20new%20deal (accessed on 29 August 2021).
  25. Donato, D. The Green New Deal and China’s Green Revolution. Available online: https://www.peoplesworld.org/article/the-green-new-deal-and-chinas-green-revolution/ (accessed on 25 August 2021).
  26. Chatzky, A.; Siripurapu, A. Envisioning a Green New Deal: A Global Comparison. Available online: https://www.cfr.org/backgrounder/envisioning-green-new-deal-global-comparison (accessed on 25 August 2021).
  27. MacArthur, J.L.; Hoicka, C.E.; Castleden, H.; Das, R.; Lieu, J. Canada’s Green New Deal: Forging the socio-political foundations of climate resilient infrastructure? Energy Res. Soc. Sci. 2020, 65, 101442. [Google Scholar] [CrossRef]
  28. London Assembly. A Green New Deal. Available online: https://www.london.gov.uk/coronavirus/londons-recovery-coronavirus-crisis/recovery-context/green-new-deal (accessed on 25 August 2021).
  29. Chowdhury, S. South Korea’s Green New Dealinthe year of transition. Available online: https://www.undp.org/blogs/south-koreas-green-new-deal-year-transition (accessed on 24 August 2021).
  30. Paszak, P. The Chinese Vision of the Green Deal. Available online: https://ec.europa.eu/clima/sites/default/files/international/cooperation/china/docs/zhong_ou_he_zuo_yan_jiu_bao_gao_-20201128_en.pdf (accessed on 24 August 2021).
  31. Moreno-Brid, J.C.; Gallagher, K. Mexico’s Road to a Green New Deal. NACLA Rep. Am. 2020, 52, 152–157. [Google Scholar] [CrossRef]
  32. Government of Singapore. Introducing the Green Plan. Available online: https://www.greenplan.gov.sg/key-focus-areas/overview (accessed on 28 August 2021).
  33. Gunia, A. Could the World’s Largest Green Energy Hub Redefine How Companies Work with Indigenous People? Available online: https://time.com/6080182/australia-green-energy-aboriginal-people/ (accessed on 22 September 2021).
  34. Visentin, L. ‘Massive Green Deal’: NSW Environment Minister Spruiks $2 Billion Energy Package. Available online: https://www.smh.com.au/politics/nsw/massive-green-deal-nsw-environment-minister-spruiks-2-billion-energy-package-20200131-p53wgg.html (accessed on 20 September 2021).
  35. The Climate Mobilization. About. Available online: https://www.theclimatemobilization.org/about/ (accessed on 25 August 2021).
  36. Green Party. The Green New Deal. Available online: https://www.gp.org/green_new_deal (accessed on 23 August 2021).
  37. The Greens/EFA. The Green New Deal: More than a Policy, a Programme for Living. Available online: https://www.greens-efa.eu/en/article/document/the-green-new-deal (accessed on 23 August 2021).
  38. DiEM25. The Green New Deal for Europe. Available online: https://diem25.org/campaign/green-new-deal/ (accessed on 23 August 2021).
  39. Green Party of the United States. The Green New Deal. Available online: https://gpus.org/organizing-tools/the-green-new-deal/ (accessed on 25 August 2021).
  40. French, H.; Renner, M.; Gardner, G. Toward a Transatlantic Green New Deal: Tackling the Climate and Economic Crises; Heinrich-Böll-Stiftung: Brussels, Belgium, 2009; Volume 3. [Google Scholar]
  41. League of Conservation Voters (LCV). LCV Supports Green New Deal Resolution. Available online: https://www.lcv.org/article/lcv-supports-green-new-deal-resolution/ (accessed on 22 August 2021).
  42. New Economics Foundation. Green New Deal: Cutting Carbon Emissions, Boosting Nature and Creating Good Jobs. Available online: https://neweconomics.org/about/our-missions/green-new-deal (accessed on 23 August 2021).
  43. Robinson, E. How are We Doing on a Green New Deal? Available online: https://www.opendemocracy.net/en/transformation/how-are-we-doing-on-green-new-deal/ (accessed on 24 August 2021).
  44. UNEP. Global Green New Deal: An Update for the G20 Pittsburgh Summit. Available online: https://wedocs.unep.org/rest/bitstreams/11748/retrieve#:~:text=In%20response%20to%20the%20financial,change%2C%20environmental%20degradation%20and%20poverty. (accessed on 25 August 2021).
  45. Saha, S.; Subramanian, N.; Menzelos, A. Memo: A Green Marshall Plan—America’s Global Climate Compact. Available online: https://www.dataforprogress.org/memos/green-marshall-plan (accessed on 24 August 2021).
  46. Ministry of Environment. Green New Deal to Drive Green Recovery in Asia-Pacific Region. Available online: http://eng.me.go.kr/eng/web/board/read.do?pagerOffset=0&maxPageItems=10&maxIndexPages=10&searchKey=&searchValue=&menuId=461&orgCd=&boardId=1415460&boardMasterId=522&boardCategoryId=&decorator= (accessed on 25 August 2021).
  47. Bradshaw, C.J.A.; Ehrlich, P.R.; Beattie, A.; Ceballos, G.; Crist, E.; Diamond, J.; Dirzo, R.; Ehrlich, A.H.; Harte, J.; Harte, M.E.; et al. Underestimating the Challenges of Avoiding a Ghastly Future. Front. Conserv. Sci. 2021, 1, 1–10. [Google Scholar] [CrossRef]
  48. Dartford, K. How can the European Green Deal Avoid “Potential Frictions” with Other Countries? Available online: https://www.euronews.com/green/2021/02/03/how-can-the-european-green-deal-avoid-potential-frictions-with-other-countries (accessed on 28 August 2020).
  49. Táíwò, O.m.O. How a Green New Deal Could Exploit Developing Countries. Available online: https://theconversation.com/how-a-green-new-deal-could-exploit-developing-countries-111726 (accessed on 26 August 2021).
  50. Doreen, E.M. The Right to Be Free of Fear: Indigeneity and the United Nations. Wicazo Sa Rev. 2014, 29, 63–87. [Google Scholar] [CrossRef]
  51. Allam, Z.; Jones, D.S. Attracting investment by introducing the city as a special economic zone: A perspective from Mauritius. Urban Res. Pract. 2019, 12, 201–207. [Google Scholar] [CrossRef]
  52. Allam, Z.; Jones, D.; Thondoo, M. Climate Change Mitigation and Urban Liveability. In Cities and Climate Change: Climate Policy, Economic Resilience and Urban Sustainability; Allam, Z., Jones, D., Thondoo, M., Eds.; Springer International Publishing: Cham, Switzerland, 2020; pp. 55–81. [Google Scholar]
  53. Allam, Z.; Jones, D. Climate Change and Economic Resilience through Urban and Cultural Heritage: The Case of Emerging Small Island Developing States Economies. Economies 2019, 7, 62. [Google Scholar] [CrossRef] [Green Version]
  54. Allam, Z.; Jones, D.; Thondoo, M. Cities and Climate Change: Climate Policy, Economic Resilience and Urban Sustainability; Springer International Publishing: Cham, Switzerland, 2020. [Google Scholar]
  55. Chohan, U. A Green New Deal: Discursive Review and Appraisal. SSRN Electron. J. 2019. Available online: https://www.vosviewer.com/documentation/Manual_VOSviewer_1.6.10.pdf (accessed on 1 September 2021).
  56. Allam, Z.; Jones, D.; Thondoo, M. Economically Incentivizing Urban Sustainability and Resilience. In Cities and Climate Change: Climate Policy, Economic Resilience and Urban Sustainability; Allam, Z., Jones, D., Thondoo, M., Eds.; Springer International Publishing: Cham, Switzerland, 2020; pp. 83–106. [Google Scholar]
  57. Allam, Z. Surveying the Covid-19 Pandemic and Its Implications: Urban Health, Data Technology and Political Economy; Elsevier Science: Amsterdam, The Netherlands, 2020. [Google Scholar]
  58. Van Eck, N.J.; Waltman, L. VOSviewer manual. Leiden: Univeristeit Leiden 2013, 1, 1–53. [Google Scholar]
  59. Hartman, H. Milestones in Environmental Protection. Available online: https://www.infoplease.com/math-science/earth-environment/milestones-in-environmental-protection (accessed on 1 September 2021).
  60. Allam, Z. Chapter 7—Vital COVID-19 Economic Stimulus Packages Pose a Challenge for Long-Term Environmental Sustainability. In Surveying the Covid-19 Pandemic and its Implications; Allam, Z., Ed.; Elsevier: Amsterdam, The Netherlands, 2020; pp. 97–105. [Google Scholar]
  61. Allam, Z.; Jones, D.S. Pandemic stricken cities on lockdown. Where are our planning and design professionals [now, then and into the future]? Land Use Policy 2020, 97, 104805. [Google Scholar] [CrossRef] [PubMed]
  62. European Environment Agency (EEA). Renewable Energy in Europe: Key for Clilmate Objectives, but Air Pollution Needs Attention. Available online: https://www.eea.europa.eu/themes/energy/renewable-energy/renewable-energy-in-europe-key (accessed on 26 August 2021).
  63. Bubbico, R.L.; Freytag, L. Inequality in Europe; European Investment Bank: Luxembourg, 2018; pp. 1–50. [Google Scholar]
  64. Fridays For Future. Who we Are. Available online: https://fridaysforfuture.org/what-we-do/who-we-are/ (accessed on 23 February 2021).
  65. Frank, M.R.; Sun, L.; Cebrian, M.; Youn, H.; Rahwan, I. Small cities face greater impact from automation. J. R. Soc. Interface 2018, 15, 20170946. [Google Scholar] [CrossRef]
  66. United Nations Framework Convention on Climate Change. Kyoto Protocol to the United Nations Framework Conventon on Climate Change. Available online: https://unfccc.int/resource/docs/convkp/kpeng.pdf (accessed on 8 August 2021).
  67. United Nations Framework Convention on Climate Change. Paris Agreement. Available online: https://unfccc.int/sites/default/files/english_paris_agreement.pdf (accessed on 8 August 2021).
  68. UNFCCC. Vulnerability and Adaptation to Climate Change in Small Island Developing States. Available online: https://unfccc.int/files/adaptation/adverse_effects_and_response_measures_art_48/application/pdf/200702_sids_adaptation_bg.pdf (accessed on 8 August 2021).
  69. Intergovernmental Panel on Climate Change. Impacts, Adaptation, and Vulnerability. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change; IPCC: Cambridge, UK; New York, NY, USA, 2014. [Google Scholar]
  70. Dowson, M.; Poole, A.; Harrison, D.; Susman, G. Domestic UK retrofit challenge: Barriers, incentives and current performance leading into the Green Deal. Energy Policy 2012, 50, 294–305. [Google Scholar] [CrossRef] [Green Version]
  71. European Commission. Communication from the Commission tothe European Parliament, the European Council, the Council, The European Economic and Social Committee and the Committee of the Regions; European Commission: Brussels, Belgium, 2019; pp. 1–24. [Google Scholar]
  72. UNEP. Towards a Green Economy: Pathways to Sustainable Development and Poverty Eradication; UNEP: Nairobi, Kenya, 2011. [Google Scholar]
  73. Fay, M. Inclusive Green Growth: The Pathway to Sustainable Development; World Bank Publications: Washington DC, USA, 2012. [Google Scholar]
  74. Beltramello, A.; Haie-Fayle, L.; Pilat, D. Why New Business Models Matter for Green Growth; OECD Publishing: Paris, France, 2013. [Google Scholar]
  75. Meseguer-Sánchez, V.; Gálvez-Sánchez, F.J.; López-Martínez, G.; Molina-Moreno, V. Corporate Social Responsibility and Sustainability. A Bibliometric Analysis of Their Interrelations. Sustainability 2021, 13, 1636. [Google Scholar] [CrossRef]
  76. Steffen, W.; Richardson, K.; Rockström, J.; Cornell, S.E.; Fetzer, I.; Bennett, E.M.; Biggs, R.; Carpenter, S.R.; de Vries, W.; de Wit, C.A.; et al. Planetary boundaries: Guiding human development on a changing planet. Science 2015, 347, 1259855. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  77. Guo, L.l.; Qu, Y.; Tseng, M.-L. The interaction effects of environmental regulation and technological innovation on regional green growth performance. J. Clean. Prod. 2017, 162, 894–902. [Google Scholar] [CrossRef]
  78. Stahel, W.R. The circular economy. Nature 2016, 531, 435–438. [Google Scholar] [CrossRef] [Green Version]
  79. Di Bartolo, A.; Infurna, G.; Dintcheva, N.T. A Review of Bioplastics and Their Adoption in the Circular Economy. Polymers 2021, 13, 1229. [Google Scholar] [CrossRef] [PubMed]
  80. Meseguer-Sánchez, V.; Gálvez-Sánchez, F.J.; Molina-Moreno, V.; Wandosell-Fernández-de-Bobadilla, G. The Main Research Characteristics of the Development of the Concept of the Circular Economy Concept: A Global Analysis and the Future Agenda. Front. Environ. Sci. 2021, 9, 1–16. [Google Scholar] [CrossRef]
  81. United Nations Framework Convention on Climate Change. Documents of the Conference of the Parties COP1 Berlin 1995 (COP1). Available online: https://unfccc.int/cop4/resource/cop1.html (accessed on 8 August 2021).
  82. United Nations. New Urban Agenda; Habitat III: Nairobi, Kenya, 2017; pp. 1–66. [Google Scholar]
  83. United Nations. Transforming our World: The 2030 Agenda for Sustainable Development; A/RES/70/1; Sustainable Development Branch, UN: New York, NY, USA, 2011. [Google Scholar]
  84. Congressional Research Service. China’s Economic Rise: History, Trends, Challenges, and Implications for the United States; CRS Report: Washington, DC, USA, 2019. [Google Scholar]
  85. Nam, C.W. What Happened to Korea Ten Years Ago? CESifo 2008, 9, 69–73. [Google Scholar]
  86. Brian, K.; Patrick, L. OECD Insights from Crisis to Recovery the Causes, Course and Consequences of the Great Recession: The Causes, Course and Consequences of the Great Recession; OECD Publishing: Paris, France, 2010. [Google Scholar]
  87. Joskow, P.L. U.S. Energy Policy During the 1990s. Available online: https://economics.mit.edu/files/1144 (accessed on 25 August 2021).
  88. Evans, D. The History and Evolution of the Affordable Housing Design Advisor: Bringing the Power of Design to Affordable Housing. Cityscape 2014, 16, 87–102. [Google Scholar]
  89. Pardalis, G.; Mahapatra, K.; Mainali, B. A triple-layered one-stop-shop business model canvas for sustainable house renovations. IOP Conf. Ser. Earth Environ. Sci. 2020, 588, 022060. [Google Scholar] [CrossRef]
  90. Kolotouchkina, O.; Seisdedos, G. Place branding strategies in the context of new smart cities: Songdo IBD, Masdar and Skolkovo. Place Branding Public Dipl. 2017, 14, 115–124. [Google Scholar] [CrossRef]
  91. Rohaidi, N. Singapore Wins Smart City of 2018 Award. Available online: https://govinsider.asia/smart-gov/singapore-wins-smart-city-of-2018-award/ (accessed on 5 March 2019).
  92. Gascó-Hernandez, M. Building a Smart City: Lessons from Barcelona. Commun. ACM 2018, 61, 50–57. [Google Scholar] [CrossRef]
  93. Samad, M.E.S.; Hawken, S.; Sargolzaei, S.; Foroozanfa, M. Implementing citizen centric technology in developing smart cities: A model for predicting the acceptance of urban technologies. Technol. Forecast. Soc. Chang. 2019, 142, 105–116. [Google Scholar] [CrossRef]
  94. Chamoso, P.; Gonzalez-Briones, A.; Rodríguez, S.; Corchado, J.M. Tendencies of Technologies and Platforms in Smart Cities: A State-of-the-Art Review. Wirel. Commun. Mob. Comput. 2018, 2018, 3086854. [Google Scholar] [CrossRef] [Green Version]
  95. To, W.-M.; Lee, P.K.C.; Lam, K.-H. Building professionals’ intention to use smart and sustainable building technologies—An empirical study. PLoS ONE 2018, 13, e0201625. [Google Scholar] [CrossRef]
  96. Roser, M.; Ritchie, H.; Ortiz-Ospina, E. World Population Growth. Available online: https://ourworldindata.org/world-population-growth#citation (accessed on 26 August 2021).
  97. Tollefson, J. COVID-19 curbed carbon emissions in 2020—Not by much. Nature 2021, 589, 343. [Google Scholar] [CrossRef] [PubMed]
  98. Gopinath, G. World Economic Outlook Update: Policy Support and Vaccines Expected to Lift Activity. Available online: https://www.imf.org/en/Publications/WEO/Issues/2021/01/26/2021-world-economic-outlook-update (accessed on 13 June 2021).
  99. Marcacci, S. Renewable Energy Prices Hit Record Lows: How Can Utilities Benefit from Unstoppable Solar and Wind? Available online: https://www.forbes.com/sites/energyinnovation/2020/01/21/renewable-energy-prices-hit-record-lows-how-can-utilities-benefit-from-unstoppable-solar-and-wind/?sh=29a8522d2c84 (accessed on 23 February 2021).
  100. United Nations. Small Island Developing States Call for Enhanced Support for a Resilient Post COVID-19 Recovery. Available online: https://www.un.org/ohrlls/news/small-island-developing-states-call-enhanced-support-resilient-post-covid-19-recovery (accessed on 7 August 2021).
  101. Allam, Z. Chapter 9—Oil, Health Equipment, and Trade: Revisiting Political Economy and International Relations During the COVID-19 Pandemic. In Surveying the Covid-19 Pandemic and its Implications; Allam, Z., Ed.; Elsevier: Amsterdam, The Netherlands, 2020; pp. 119–127. [Google Scholar]
  102. World Bank. COVID-19 to Plunge Global Economy into Worst Recession Since World War II. Available online: https://www.worldbank.org/en/news/press-release/2020/06/08/covid-19-to-plunge-global-economy-into-worst-recession-since-world-war-ii (accessed on 15 April 2021).
Sustainability 13 12529 g001 550
Figure 1. Web popularity of the term ‘Green New Deal’ from 2008 to 2021, with popularity ranging from 0 to 100. Sourced from Google Trends [23].
Figure 1. Web popularity of the term ‘Green New Deal’ from 2008 to 2021, with popularity ranging from 0 to 100. Sourced from Google Trends [23].
Sustainability 13 12529 g001
Sustainability 13 12529 g002 550
Figure 2. Web popularity of the term ‘Green New Deal’ (2008 to 2021), interest by region. The popularity ranges from 3 to 100, where 100 is the most popular. Sourced from Google Trends [24].
Figure 2. Web popularity of the term ‘Green New Deal’ (2008 to 2021), interest by region. The popularity ranges from 3 to 100, where 100 is the most popular. Sourced from Google Trends [24].
Sustainability 13 12529 g002
Sustainability 13 12529 g003 550
Figure 3. The number of articles published per year. Note that although the literature search was conducted in August 2021, the number of articles in this year is already larger than its previous year. This is a clear indication of increasing interest in this topic and more articles are expected to be published in the rest of 2021 and coming years, especially in view of the impacts of COVID-19 on many economies and the need for prompt recoveries aligning with both economic and sustainability pursuits [57,60,61].
Figure 3. The number of articles published per year. Note that although the literature search was conducted in August 2021, the number of articles in this year is already larger than its previous year. This is a clear indication of increasing interest in this topic and more articles are expected to be published in the rest of 2021 and coming years, especially in view of the impacts of COVID-19 on many economies and the need for prompt recoveries aligning with both economic and sustainability pursuits [57,60,61].
Sustainability 13 12529 g003
Sustainability 13 12529 g004 550
Figure 4. Countries with the most contributions to GND. Illustration by authors.
Figure 4. Countries with the most contributions to GND. Illustration by authors.
Sustainability 13 12529 g004
Sustainability 13 12529 g005 550
Figure 5. Organizations contributing the most to GND. Illustration by Authors.
Figure 5. Organizations contributing the most to GND. Illustration by Authors.
Sustainability 13 12529 g005
Sustainability 13 12529 g006 550
Figure 6. Journals influencing the GDN discourse. Illustration by authors.
Figure 6. Journals influencing the GDN discourse. Illustration by authors.
Sustainability 13 12529 g006
Sustainability 13 12529 g007 550
Figure 7. Major references influencing the GDN discourse. Illustration by Authors.
Figure 7. Major references influencing the GDN discourse. Illustration by Authors.
Sustainability 13 12529 g007
Sustainability 13 12529 g008 550
Figure 8. Authors influencing the GDN discourse. Illustration by the authors.
Figure 8. Authors influencing the GDN discourse. Illustration by the authors.
Sustainability 13 12529 g008
Sustainability 13 12529 g009 550
Figure 9. Analysis of terms co-occurrence from 1995 to 2021. Illustration by the authors.
Figure 9. Analysis of terms co-occurrence from 1995 to 2021. Illustration by the authors.
Sustainability 13 12529 g009
Sustainability 13 12529 g010 550
Figure 10. Analysis of terms co-occurrence from 1995 to 2014. Illustration by Authors.
Figure 10. Analysis of terms co-occurrence from 1995 to 2014. Illustration by Authors.
Sustainability 13 12529 g010
Sustainability 13 12529 g011 550
Figure 11. Analysis of terms co-occurrence from 2015 to 2019. Illustration by Authors.
Figure 11. Analysis of terms co-occurrence from 2015 to 2019. Illustration by Authors.
Sustainability 13 12529 g011
Sustainability 13 12529 g012 550
Figure 12. Analysis of terms co-occurrence from 2020 to 2021. Illustration by Authors.
Figure 12. Analysis of terms co-occurrence from 2020 to 2021. Illustration by Authors.
Sustainability 13 12529 g012
Table
Table 1. Mapping Green New Deal national policy proposals and name variations.
Table 1. Mapping Green New Deal national policy proposals and name variations.
CountryName of PolicyYear ProposedSource
CanadaPact for a Green New Deal2019[27]
United KingdomGreen Recovery Act2019London Assembly [28]
South KoreaGreen New Deal2020Chowdhury [29]
The European UnionEuropean Green New Deal2019European Commission [15]
ChinaEcological Civilization2020Paszak [30]
United States of AmericaGreen New Deal2019Congress [14]
MexicoGreen New Deal2020Moreno-Brid and Gallagher [31]
SingaporeGreen Plan2021Government of Singapore [32]
Table
Table 2. Mapping organizational adoption of Green New Deals.
Table 2. Mapping organizational adoption of Green New Deals.
OrganizationsYear Source
The Climate Mobilization2017The Climate Mobilization [35]
The European Green Party2006Green Party [36]
The Green-European Free Alliance2011The Greens/EFA [37]
The Democracy in Europe Movement 20252019DiEM25 [38]
Green Party of the United States2006Green Party of the United States [39]
Heinrich Böll Foundation2009French, et al. [40]
League of Conservation Voters2019League of Conservation Voters (LCV) [41]
The New Economic Foundation2008New Economics Foundation [42]
Open Democracy2018Robinson [43]
The United Nations Environmental Program2009UNEP [44]
The Global Marshall Plan Initiative2020Saha, et al. [45]
The United Nations Economic and Social Commission for Asia and the Pacific2012Ministry of Environment [46]
Table
Table 3. Major references influencing the GDN discourse, with number of citations and link strength.
Table 3. Major references influencing the GDN discourse, with number of citations and link strength.
TitleAuthors Journal/OrganizationNo. of CitationsLink Strength
The environment and directed technical changeDaron Acemoglu
Philippe Aghion
Leonardo Bursztyn
David Hemous		American Economic Review224354
Some Tests of Specification for Panel Data: Monte Carlo Evidence and an Application to Employment EquationsManuel Rellano
Stephen Bond		Review of Economic Studies11,36825
The Green Economy and Sustainable Development: An Uneasy Balance?Olivia BinaSAGE Journals29361
The green growth narrative: Paradigm shift or just spin?Alex Bowen
Samuel Fankhauser		Global Environmental Change48117
What is degrowth? From an activist slogan to a social movementFederico Demaria
Francois Schneider
Filka Sekulova
Joan Martinez-Alier		Environmental Values69386
Domestic UK retrofit challenge: Barriers, incentives and current performance leading into the Green DealMark Dowson
Adam Poole
David Harrison
Gideon Susman		Energy Policy2670
European Commission European Commission210
Economic growth and the environmentGene M. Grossman
Alan B. Krueger		The Quarterly Journal of Economics849747
The interaction effects of environmental regulation and technological innovation on regional green growth performanceLing Ling Guo
Ying Qu
Ming-Land Tseng		Journal of Cleaner Production13851
The Politics of Environmental Discourse: Ecological Modernisation and the Policy Process.Maarten A. HajerOxford University Press942347
Is green growth possible?Jason Hickel
Giorgos Kallis		New Political Economy 51566
Prosperity without growth? The transition to a sustainable economyTim JacksonUK sustainable development commission1042134
Green growth, degrowth, and the commonsMichael Jakob
Ottmar Edenhofer		Oxford Review of Economic Policy12887
“Green growth”: From a growing eco-industry to economic sustainabilityMartin JänickeEnergy Policy319149
In defence of degrowthGiorgos KallisEcological Economics1004115
The economics of degrowthGiorgos Kallis
Christian Kerschner
Joan Martinez-Alier		Ecological Economics61099
A new approach to measuring green growth: Application to the OECD and KoreaSatbyul Estella Kim Ho Kim
Yeora Chae		Futures7158
Sustainable consumption within a sustainable economy–beyond green growth and green economiesSylvia Lorek
Joachim H. Spangenberg		Journal of Cleaner Production556106
Green growth strategies—Korean initiativesJohn A. MathewsFutures12968
The limits to growth: The 30-year updateDennis Meadows
Jorgan Randers		Taylor and Francis457775
Towards green growthOECDOECD79171
Towards green growth: Monitoring progressOECDOECD1287
Blueprint 1: for a green economyDavid Pearce
Anil Markandya Edward Barbier		Francis and Taylor499767
Toward a New Conception of the Environment-Competitiveness RelatinshipPorte MeJournal of Economics Perspectives3439
A safe operating space for humanityJohan Rockström, Will Steffen Jonathan A. FoleyNature10,911127
Green growth or degrowth? Assessing the normative justifications for environmental sustainability and economic growth through critical social theoryMaria Sandberg Kristian Klockars KristofferWilénJournal of Cleaner Production8556
From “Green Growth” to sound policies: An overviewRichard SchmalenseeEnergy Economics10776
Crisis or opportunity? Economic degrowth for social equity and ecological sustainability. Introduction to this special issueFrançois Schneider
Giorgos Kallis
Joan Martinez-Aliera		Journal of Cleaner Production1116108
Planetary boundaries: Guiding human development on a changing planetWill Steffen
Katherine Richardson
Johan Rockström
Sarah E. Cornell
Ingo Fetzer
Elena M. Bennett Reinette Biggs
Stephen R. Carpenter Wim De Vries
Cynthia A. De Wit
Carl Folke
Dieter Gerten
Jens Heinke
Georgina M. Mace
Linn M. Persson
Veerabhadran Ramanathan
Belinda Reyers
Sverker Sörlin		Science761170
The rise and fall of the environmental Kuznets curveDavid I SternWorld Development358753
The economics of climate change: the Stern reviewNicholas Stern
Nicholas Herbert Stern		Cambridge University Press170536
Towards a Green Economy: Pathways to
Sustainable Development and Poverty Eradication—A Synthesis for Policy Makers		UNEPUNEP259254
Managing the transition to critical green growth: The ‘Green Growth State’Diego Vazquez-Brust
Alastair M. Smith
Joseph Sarkis		Futures6055
Managing without growth: slower by design, not disasterPeter A. VictorEdward Elgar Publishing129176
The material footprint of nationsThomas O. Wiedmann
Heinz Schandl
Manfred Lenzen
Daniel Moran
Sangwon Suh
James West
Keiichiro Kanemoto		Proceedings
The National Academy of Sciences of the United States of America		123579
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Allam, Z.; Sharifi, A.; Giurco, D.; Sharpe, S.A. On the Theoretical Conceptualisations, Knowledge Structures and Trends of Green New Deals. Sustainability 2021, 13, 12529. https://doi.org/10.3390/su132212529

AMA Style

Allam Z, Sharifi A, Giurco D, Sharpe SA. On the Theoretical Conceptualisations, Knowledge Structures and Trends of Green New Deals. Sustainability. 2021; 13(22):12529. https://doi.org/10.3390/su132212529

Chicago/Turabian Style

Allam, Zaheer, Ayyoob Sharifi, Damien Giurco, and Samantha A. Sharpe. 2021. "On the Theoretical Conceptualisations, Knowledge Structures and Trends of Green New Deals" Sustainability 13, no. 22: 12529. https://doi.org/10.3390/su132212529

APA Style

Allam, Z., Sharifi, A., Giurco, D., & Sharpe, S. A. (2021). On the Theoretical Conceptualisations, Knowledge Structures and Trends of Green New Deals. Sustainability, 13(22), 12529. https://doi.org/10.3390/su132212529

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop