Rubber-Based Agroforestry Ecosystems Enhance Soil Enzyme Activity but Exacerbate Microbial Nutrient Limitations
文献类型: 外文期刊
作者: Xu, Wenxian 1 ; Zhang, Yingying 1 ; Tahir, Ashar 1 ; Cao, Yumiao 3 ; Kuang, Changgeng 3 ; Guo, Xinwei 1 ; Sun, Rui 1 ; Liu, Wenjie 2 ; Wu, Zhixiang 1 ; Yang, Qiu 2 ;
作者机构: 1.Chinese Acad Trop Agr Sci, Rubber Res Inst, Haikou 571101, Peoples R China
2.Hainan Univ, Coll Ecol & Environm, Haikou 570228, Peoples R China
3.Hainan Normal Univ, Sch Geog & Environm Sci, Haikou 571158, Peoples R China
关键词: enzymatic stoichiometry; microbial nutrient limitation; vector model; rubber-based agroforestry systems
期刊名称:FORESTS ( 影响因子:2.5; 五年影响因子:2.7 )
ISSN:
年卷期: 2024 年 15 卷 10 期
页码:
收录情况: SCI
摘要: Agroforestry ecosystems are an efficient strategy for enhancing soil nutrient conditions and sustainable agricultural development. Soil extracellular enzymes (EEAs) are important drivers of biogeochemical processes. However, changes in EEAs and chemometrics in rubber-based agroforestry systems and their mechanisms of action are still not fully understood. Distribution of EEAs, enzymatic stoichiometry, and microbial nutrient limitation characteristics of rubber plantations under seven planting patterns (RM, rubber monoculture system; AOM, Hevea brasiliensis-Alpinia oxyphylla Miq; PAR, Hevea brasiliensis-Pandanus amaryllifolius Roxb; AKH, Hevea brasiliensis-Alpinia katsumadai Hayata; CAA, Hevea brasiliensis-Coffea Arabica; CCA, Hevea brasiliensis-Cinnamomum cassia (L.) D. Don, and TCA, Hevea brasiliensis-Theobroma Cacao) were analyzed to investigate the metabolic limitations of microorganisms and to identify the primary determinants that restrict nutrient limitation. Compared with rubber monoculture systems, agroforestry ecosystems show increased carbon (C)-acquiring enzyme (EEAC), nitrogen (N)-acquiring enzyme (EEAN), and phosphorus (P)-acquiring enzyme (EEAP) activities. The ecoenzymatic stoichiometry model demonstrated that all seven plantation patterns experienced C and N limitation. Compared to the rubber monoculture system, all agroforestry systems exacerbated the microbial limitations of C and N by reducing the vector angle and increasing vector length. P limitation was not detected in any plantation pattern. In agroforestry systems, progression from herbs to shrubs to trees through intercropping results in a reduction in soil microbial nutrient constraints. This is primarily because of the accumulation of litter and root biomass in tree-based systems, which enhances the soil nutrient content (e.g., soil organic carbon, total nitrogen, total phosphorus, and ammonium nitrogen) and accessibility. Conversely, as soil depth increased, microbial nutrient limitations tended to become more pronounced. Partial least squares path modelling (PLS-PM) indicated that nutrient ratios and soil total nutrient content were the most important factors influencing microbial C limitation (-0.46 and 0.40) and N limitation (-0.30 and -0.42). This study presented novel evidence regarding the constraints and drivers of soil microbial metabolism in rubber agroforestry systems. Considering the constraints of soil nutrients and microbial metabolism, intercropping of rubber trees with arboreal species is recommended over that of herbaceous species to better suit the soil environment of rubber plantation areas on Hainan Island.
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