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Forests, Volume 1, Issue 4 (December 2010) – 4 articles , Pages 194-254

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37 KiB  
Editorial
Forest Governance, Decentralization and REDD+ in Latin America
by Elena Petkova, Anne Larson and Pablo Pacheco
Forests 2010, 1(4), 250-254; https://doi.org/10.3390/f1040250 - 16 Dec 2010
Cited by 10 | Viewed by 7400
Abstract
Forests and their governance have received increased attention in recent years. One factor that has stimulated this renewed interest is the appreciation of deforestation as a significant contributor to greenhouse gas emissions. The emerging REDD+ mechanism (reducing emissions from deforestation and forest degradation) [...] Read more.
Forests and their governance have received increased attention in recent years. One factor that has stimulated this renewed interest is the appreciation of deforestation as a significant contributor to greenhouse gas emissions. The emerging REDD+ mechanism (reducing emissions from deforestation and forest degradation) under the UN Framework Convention on Climate Change (UNFCCC) is being designed with the goal of using financial incentives to enhance the role of forests in curbing climate change. [...] Full article
400 KiB  
Article
Financing Sustainable Small-Scale Forestry: Lessons from Developing National Forest Financing Strategies in Latin America
by Marco Boscolo, Kees van Dijk and Herman Savenije
Forests 2010, 1(4), 230-249; https://doi.org/10.3390/f1040230 - 6 Dec 2010
Cited by 21 | Viewed by 9855
Abstract
The problems that hamper the financing of sustainable forest management (SFM) are manifold and complex. However, forestry is also facing unprecedented opportunities. The multiple functions and values of forests are increasingly recognized as part of the solution to pressing global issues (e.g., climate [...] Read more.
The problems that hamper the financing of sustainable forest management (SFM) are manifold and complex. However, forestry is also facing unprecedented opportunities. The multiple functions and values of forests are increasingly recognized as part of the solution to pressing global issues (e.g., climate change, energy scarcity, poverty, environmental degradation, biodiversity loss and raw material supply). Emerging initiatives to enhance forest carbon stocks and cut greenhouse gas emissions associated with forest clearing (known as REDD+), together with voluntary carbon markets, are offering additional funding options for SFM. Indigenous peoples, local communities and small scale farmers feature as key players in the discourse on implementing such initiatives. Based on the experience of countries developing national forest financing strategies and instruments, we suggest the following points be considered when financing such initiatives, particularly for small scale forestry: (1) Integrate financing of REDD+ and similar initiatives within broader national strategies for SFM financing; (2) Design REDD+ finance mechanisms that are ‘community ready’, i.e., tailored to local realities; (3) Consider existing livelihood strategies as the starting point; (4) Build on existing structures, but be mindful of their strengths and weaknesses; (5) Be strategic with your priority actions; and (6) Promote innovation, knowledge sharing and information exchange. Full article
218 KiB  
Article
Influence of Climate on the Growth of Hybrid Poplar in Michigan
by Sophan Chhin
Forests 2010, 1(4), 209-229; https://doi.org/10.3390/f1040209 - 15 Nov 2010
Cited by 13 | Viewed by 7127
Abstract
This study examined the influence of climate on cumulative and interannual growth patterns of 18 full-sib families of hybrid poplars (Populus × smithii Boivin) derived from different geographical locations (state counties) of natural stands of aspen parents (trembling aspen (Populus [...] Read more.
This study examined the influence of climate on cumulative and interannual growth patterns of 18 full-sib families of hybrid poplars (Populus × smithii Boivin) derived from different geographical locations (state counties) of natural stands of aspen parents (trembling aspen (Populus tremuloides Michx.) and bigtooth aspen (Populus grandidentata Michx.)). The hybrids were subsequently planted in 1982 in southern mid-Michigan at Michigan State University (MSU) Sandhill Research Area. Cumulative measures of hybrid poplar productivity (diameter, height, basal area, and stem volume) in 2009 (28 years since plantation establishment) were related via correlation analysis to geographical distances and climatic variables (temperature and precipitation) between parental county locations and between parental locations and the plantation site. Tree-ring analysis methods (dendrochronology) were also used to quantify the influence of climate (i.e., mean temperature and total precipitation at monthly and 3-month seasonal scales) on interannual basal area growth rates of hybrid poplars. Analyses of cumulative measures of growth indicated a maternal effect: full-sib families had higher productivity if they had a maternal parent originating from a state county that was close to or had higher temperature (annual and summer) and summer precipitation than corresponding parameters of the planting site. Principal component analysis indicated that 17 of the 18 full-sib families shared a large amount of common growth variation. Dendrochronological analyses of interannual growth-climate relationships indicated that growth was mainly affected by the degree of late summer to fall moisture stress in both the current and previous growth season, and the degree of winter harshness. Full article
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722 KiB  
Article
Assessing a Template Matching Approach for Tree Height and Position Extraction from Lidar-Derived Canopy Height Models of Pinus Pinaster Stands
by Francesco Pirotti
Forests 2010, 1(4), 194-208; https://doi.org/10.3390/f1040194 - 26 Oct 2010
Cited by 39 | Viewed by 8407
Abstract
In this paper, an assessment of a method using a correlation filter over a lidar-derived digital canopy height model (CHM) is presented. The objective of the procedure is to obtain stem density, position, and height values, on a stand with the following characteristics: [...] Read more.
In this paper, an assessment of a method using a correlation filter over a lidar-derived digital canopy height model (CHM) is presented. The objective of the procedure is to obtain stem density, position, and height values, on a stand with the following characteristics: ellipsoidal canopy shape (Pinus pinaster), even-aged and single-layer structure. The process consists of three steps: extracting a correlation map from CHM by applying a template whose size and shape resembles the canopy to be detected, applying a threshold mask to the correlation map to keep a subset of candidate-pixels, and then applying a local maximum filter to the remaining pixel groups. The method performs satisfactorily considering the experimental conditions. The mean tree extraction percentage is 65% with a coefficient of agreement of 0.4. The mean absolute error of height is ~0.5 m for all plots except one. It can be considered a valid approach for extracting tree density and height in regularly spaced stands (i.e., poplar plantations) which are fundamental for extracting related forest parameters such as volume and biomass. Full article
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