Distribution of Soil Enzyme Activities and Microbial Biomass Along a Latitudinal Gradient in Farmlands of Songliao Plain, Northeast China1
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2022, Soil and Tillage ResearchCitation Excerpt :The higher amount of biomass added through residue retention contributed to the increase in organic soil C, N and P in maize+groundnut-peas. This apparently provided a good quantity of C substrate to the microbes, resulting in increased soil microbial activity (Liu et al., 2008; Heintz-Buschart et al., 2020). The overall reduction in SMBC and labile C deposits in non-green manured soils could be due to a lack of C-rich substrate (Lungmuana et al., 2019).
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2021, Journal of Environmental ManagementLatitudinal patterns of soil extracellular enzyme activities and their controlling factors in Pinus massoniana plantations in subtropical China
2021, Forest Ecology and ManagementCitation Excerpt :Therefore, to further understand and maintain the functionality of soil enzymes in terrestrial ecosystems under rapid climate change (Henry, 2012; Kittredge et al., 2018; Zhou et al., 2013; Xiao et al., 2018), controlled experiments are needed to precisely identify the relationships among climatic factors, EEAs and enzymatic acquisition ratios. Our results were inconsistent with previous studies showing that edaphic variables (e.g., properties or stoichiometry) had greater influences on soil EEAs and their acquisition ratios (Cui et al., 2018; Jones et al., 2019; Liu et al., 2008; Peng and Wang, 2016; Stark et al., 2014). We found that only soil available P content was significantly and positively related to soil EEAs and their acquisition ratios in subtropical pure pine plantations (Table 2).
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Project supported by the National Key Basic Research Support Foundation of China (No. 2005CB121105) and the National Natural Science Foundation of China (No. 30670379).