Leguminous plants significantly increase soil nitrogen cycling across global climates and ecosystem types
Leguminous plants are an important component of terrestrial ecosystems and significantly
increase soil nitrogen (N) cycling and availability, which affects productivity in most …
increase soil nitrogen (N) cycling and availability, which affects productivity in most …
[HTML][HTML] Fire effects on soil carbon cycling pools in forest ecosystems: A global meta-analysis
Y Cheng, P Luo, H Yang, H Li, C Luo, H Jia… - Science of The Total …, 2023 - Elsevier
Abstract Changes in soil carbon (C) pools driven by fire in forest ecosystems remain
equivocal, especially at a global scale. In this study we analyzed data from 232 studies …
equivocal, especially at a global scale. In this study we analyzed data from 232 studies …
[HTML][HTML] Changes in the activity of soil enzymes after fire
Fire can have widespread impacts on biogeochemical processes of carbon (C) and nutrient
cycling. Soil extracellular enzyme activity (EEA) plays crucial roles in biogeochemical …
cycling. Soil extracellular enzyme activity (EEA) plays crucial roles in biogeochemical …
Gross nitrogen transformation rates in shifting cultivation systems in northern Thailand: Controlling factors and implications for inorganic nitrogen availability
M Shibata, N Sangsompaisarn, S Watanabe… - Geoderma …, 2023 - Elsevier
Slash-and-burn practices and subsequent fallow periods affect soil nitrogen (N) availability.
Although extensive studies have examined the global temporal patterns of inorganic N after …
Although extensive studies have examined the global temporal patterns of inorganic N after …
Impacts of fire on soil respiration and its components: A global meta-analysis
H Gui, J Wang, M Hu, Z Zhou, S Wan - Agricultural and Forest Meteorology, 2023 - Elsevier
As a general disturbance in terrestrial ecosystems, fire can have far-reaching consequences
on the carbon (C) cycle. Although soil respiration (SR) is important in regulating atmospheric …
on the carbon (C) cycle. Although soil respiration (SR) is important in regulating atmospheric …
Global recovery patterns of soil microbes after fire
M Hu, J Wang, L Lu, H Gui, S Wan - Soil Biology and Biochemistry, 2023 - Elsevier
Soil microorganisms are a fundamental component of ecosystems and mediate
biogeochemical cycles and ecosystem productivity. The frequency and extremity of fire …
biogeochemical cycles and ecosystem productivity. The frequency and extremity of fire …
Core microbiota of wheat rhizosphere under upper indo-Gangetic plains and their response to soil physicochemical properties
Wheat is widely cultivated in the Indo-Gangetic plains of India and forms the major staple
food in the region. Understanding microbial community structure in wheat rhizosphere along …
food in the region. Understanding microbial community structure in wheat rhizosphere along …
Effect of fire on microbial necromass carbon content is regulated by soil depth, time since fire, and plant litter input in subtropical forests
Background and aims Microbial necromass carbon (MNC) is regarded as a considerable
source of soil organic carbon (SOC). However, the impacts of fire on MNC and its …
source of soil organic carbon (SOC). However, the impacts of fire on MNC and its …
Spatial Drivers of Soil Health in a Post-Fire Watershed
R Williams - 2024 - search.proquest.com
Wildland fires are increasing in both severity and intensity leading to severe and lasting
biogeochemical effects on soil. The CZU lightning complex started on August 16 th, 2020 …
biogeochemical effects on soil. The CZU lightning complex started on August 16 th, 2020 …
[HTML][HTML] A preliminary faunistic study of soil nematodes from different land uses in Tropical Deciduous Forest in the Costa Chica of Guerrero, Mexico
J Garibay-Arciniega, M Mundo-Ocampo… - Acta zoológica …, 2022 - scielo.org.mx
Abstract Tropical Deciduous Forest (TDF) is an important biome threatened globally by
climate change and human encroachment. Changes in diversity and abundance of soil …
climate change and human encroachment. Changes in diversity and abundance of soil …