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Ecologies, Volume 3, Issue 1 (March 2022) – 4 articles

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8 pages, 2036 KiB  
Communication
Plant Diversity Is More Important than Climate Factors in Driving Insect Richness Pattern along a Latitudinal Gradient
by Yanling Peng, Jie Gao and Xing Zhang
Ecologies 2022, 3(1), 30-37; https://doi.org/10.3390/ecologies3010004 - 15 Mar 2022
Cited by 3 | Viewed by 3576
Abstract
The insect data of 93 national nature reserves in China was used to identify the underlying drivers’ potential for species richness along geographical gradients. We assessed the correlations between predictors (climate and soil) and response variables (insect richness). We found that the following: [...] Read more.
The insect data of 93 national nature reserves in China was used to identify the underlying drivers’ potential for species richness along geographical gradients. We assessed the correlations between predictors (climate and soil) and response variables (insect richness). We found that the following: insect diversity decreased significantly at higher latitudes. The latitudinal variation in insect richness seems to be driven by climate and soil variations and also the diversity of other biota. Among all the tested predictors, plant diversity explained the most latitudinal patterns of insect richness (R2 = 0.498). Insect richness showed a positive correlation with the diversity of other biota and climate factors (mean annual temperature and mean annual precipitation) and was negatively associated with soil pH. Overall, the interspecific relationship between organisms was the main driver of insect diversity’s latitudinal pattern. However, the effects of climate and soil factors cannot be ignored. Full article
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17 pages, 1115 KiB  
Review
Boosting C Sequestration and Land Restoration through Forest Management in Tropical Ecosystems: A Mini-Review
by Lydie-Stella Koutika
Ecologies 2022, 3(1), 13-29; https://doi.org/10.3390/ecologies3010003 - 15 Feb 2022
Cited by 6 | Viewed by 3654
Abstract
Soil has a major role in sequestering atmospheric CO2. This has further benefits and potential to improve soil fertility and food production, mitigate climate change, restore land degradation, and conserve ecosystem biodiversity. However, its health is increasingly being threatened by the [...] Read more.
Soil has a major role in sequestering atmospheric CO2. This has further benefits and potential to improve soil fertility and food production, mitigate climate change, restore land degradation, and conserve ecosystem biodiversity. However, its health is increasingly being threatened by the growing population, land degradation and climate change effects. Despite its importance, soil organic carbon (SOC) is understudied in the tropics. This paper reviews how managing forests in tropical ecosystems can benefit SOC sequestration and land restoration. Sequestered SOC has the potential to improve soil fertility, as well as to reduce both land degradation and atmospheric CO2 emissions. It further improves soil structure, aggregation and water infiltration, enhances soil faunal activity and boosts nutrient cycling (C, N, P and S). Managing forest ecosystems is crucial to boost C sequestration, mitigate climate change and restore degraded lands, besides other ecosystem services they provide. Apart from managing natural forests and planted forests, afforesting, reforesting marginal or degraded lands especially when associated with specific practices (organic residue management, introducing nitrogen-fixing species) boost C storage (in both soil and biomass) and foster co-benefits as soil health improvement, food production, land restoration and mitigation of climate change. Improved soil health as a result of sequestered C is confirmed by enhanced physical, biological and chemical soil fertility (e.g., sequestered C stability through its link to N and P cycling driven by soil biota) which foster and sustain soil health. Full article
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1 pages, 159 KiB  
Editorial
Acknowledgment to Reviewers of Ecologies in 2021
by Ecologies Editorial Office
Ecologies 2022, 3(1), 12; https://doi.org/10.3390/ecologies3010002 - 26 Jan 2022
Viewed by 1889
Abstract
Rigorous peer-reviews are the basis of high-quality academic publishing [...] Full article
11 pages, 1288 KiB  
Article
No Effect of Early Adult Experience on the Development of Individual Specialization in Host-Searching Cabbage White Butterflies
by Meredith K. Steck and Emilie C. Snell-Rood
Ecologies 2022, 3(1), 1-11; https://doi.org/10.3390/ecologies3010001 - 19 Jan 2022
Viewed by 2372
Abstract
Individuals in a population often use unique subsets of locally available resources, but we do not entirely understand how environmental context shapes the development of these specializations. In this study, we used ovipositing cabbage white butterflies (Pieris rapae) searching for host [...] Read more.
Individuals in a population often use unique subsets of locally available resources, but we do not entirely understand how environmental context shapes the development of these specializations. In this study, we used ovipositing cabbage white butterflies (Pieris rapae) searching for host plants to test the hypothesis that early experience with an abundant resource can lead to later individual specialization. We first exposed naïve butterflies to one of three environments with different relative abundances of host plants of comparable nutritional quality, cabbage and radish. The next day, we observed butterflies from all treatments searching for hosts in a common environment where cabbage and radish were equally abundant. We predicted that the butterflies would preferentially visit the host plant that had been abundant during their previous experience, but instead found that butterflies from all experience treatments visited cabbage, a likely more visually salient host, more often than radish. In this experiment, behavioral plasticity in current conditions outweighed developmental experience in shaping individual resource use. We argue that these butterflies potentially respond to particularly salient search cues and that the discriminability of a resource may lead to specialization bias independent of early life experiences with abundant resources. Full article
(This article belongs to the Special Issue Evolutionary and Behavioral Ecology of Insects)
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