Microclimatic Influences on Soil Nitrogen Dynamics and Plant Diversity Across Rocky Desertification Gradients in Southwest China [0.03%]
中国西南岩溶地区土壤氮动力学和植物多样性的微气候影响研究——基于石漠化梯度的初步结果
Qian Wu,Chengjiao Rao,Wende Yan et al.
Qian Wu et al.
Soil active nitrogen (N) fractions are essential for plant growth and nutrient cycling in terrestrial ecosystems. While previous studies have primarily focused on the impact of vegetation restoration on soil active nitrogen in karst ecosyst...
Illuminating the nexus between non-biodegradable microplastics and soil nitrogen dynamics: A modulation through plant-derived organic matter [0.03%]
不可降解微塑料与土壤氮动态之间联系的探究:植物来源有机物质的调节作用
Zelin Hou,Fan Mo,Qixing Zhou et al.
Zelin Hou et al.
The characteristics of vegetation cover significantly influence nitrogen (N) cycling in soils. However, there is currently a lack of comprehensive assessment regarding how altered vegetation cover types affect soil N cycling in the context ...
Nitrogen Acquisition by Invasive Plants: Species Preferential N Uptake Matching with Soil N Dynamics Contribute to Its Fitness and Domination [0.03%]
入侵植物的氮获取:物种优先氮吸收与土壤氮动态相匹配有助于其适应性和主导性
Xingang Chang,Wenying Wang,Huakun Zhou
Xingang Chang
Plant invasions play a significant role in global environmental change. Traditionally, it was believed that invasive plants absorb and utilize nitrogen (N) more efficiently than native plants by adjusting their preferred N forms in accordan...
District ammonium-to-nitrate ratios change soil N dynamics and shape inverse patterns of resource acquisition strategy and biomass production of four urban greening trees [0.03%]
不同区域的铵硝态氮比变化影响土壤氮素动态并改变四种城市绿化树种资源获取策略及生物量产生的逆向格局
Qinze Zhang,Binyue Kang,Jiaxu Li et al.
Qinze Zhang et al.
Ammonium nitrogen (NH4+) and nitrate nitrogen (NO3-), the primary soil accessible nitrogen (N) forms for most plants, can affect plant ecophysiology and biomass production in different ways. Plants typically exhibit varying capacities for u...
[Effect of Nitrification Inhibitors on Soil Nitrogen Dynamics and Microbial Community Structure in Aerated Paddy Field] [0.03%]
稻田好气期施用硝化抑制剂对土壤氮素动态及微生物群落结构的影响
Shu-Rong Chen,Lian-Feng Zhu,Bi-Rong Qin et al.
Shu-Rong Chen et al.
The aim of this study was to clarify the effects of nitrification inhibitors on the dynamic changes in the nitrogen and microbial community in paddy soil under aerated irrigation by using the indica hybrid rice Zhongzheyou 8 as experimental...
Cenchrus spinifex Invasion Alters Soil Nitrogen Dynamics and Competition [0.03%]
Cenchrus spinifex入侵改变了土壤氮动态及种间竞争
Meng Meng,Baihui Ren,Jianxin Yu et al.
Meng Meng et al.
Invasive plants often alter biological soil conditions to increase their own competitiveness. Through indoor simulated nitrogen deposition culture experiments, we investigated the differences in growth indicators and nutrient content levels...
Arbuscular mycorrhizal fungi mediate soil N dynamics, mitigating N2O emissions and N-leaching while promoting crop N uptake in green manure systems [0.03%]
丛枝菌根真菌调节绿肥体系的土壤氮循环,缓解氮排放及促进作物氮吸收
Hanqiang Lyu,Aizhong Yu,Qiang Chai et al.
Hanqiang Lyu et al.
Arbuscular mycorrhizal fungi (AMF), as symbionts of the plant root system, play a pivotal ecological role in soil nutrient dynamics. However, the mechanisms by which AMF mediates nitrogen (N) transformation at the soil-crop interface, parti...
Soil Erosion Thickness and Seasonal Variations Together Drive Soil Nitrogen Dynamics at the Early Stage of Vegetation Restoration in the Dry-Hot Valley [0.03%]
土壤侵蚀深度和季节变化共同驱动干热河谷植被恢复初期的土壤氮动态过程
Wenxu Liu,Zhe Chen,Li Rong et al.
Wenxu Liu et al.
By changing the physicochemical and biological properties of soil, erosion profoundly affects soil nitrogen levels, but knowledge about the erosion impact on soil nitrogen (N) dynamics is still rather incomplete. We compared soil N contents...
The effect of afforestation type on soil nitrogen dynamics in the riparian zone of the upper Yangtze River of China [0.03%]
植被类型对长江上游河岸带土壤氮素动态的影响
Deping Zhai,Rui Chen,Qiong Chen et al.
Deping Zhai et al.
Afforestation is increasingly important in nutrient cycling in riparian ecotones given that ecosystems in riparian zones are susceptible to anthropogenic activities induced by land use change. However, how land use change (e.g., afforestati...
Arable soil nitrogen dynamics reflect organic inputs via the extended composite phenotype [0.03%]
耕作土壤氮动态通过扩展综合表型反映有机输入
Andrew L Neal,Harry A Barrat,Aurélie Bacq-Lebreuil et al.
Andrew L Neal et al.
Achieving food security requires resilient agricultural systems with improved nutrient-use efficiency, optimized water and nutrient storage in soils, and reduced gaseous emissions. Success relies on understanding coupled nitrogen and carbon...
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