Biogeochemical Cycles in Plant–Soil Systems: Significance for Agriculture, Interconnections, and Anthropogenic Disruptions DOI Creative Commons
Wajid Zaman, Asma Ayaz, Daniel Puppe

и другие.

Biology, Год журнала: 2025, Номер 14(4), С. 433 - 433

Опубликована: Апрель 17, 2025

Biogeochemical cycles are fundamental to the functioning of plant–soil systems, driving availability and transfer essential nutrients (like carbon (C), nitrogen (N), phosphorus (P), sulfur (S)) as well beneficial elements silicon (Si)). These interconnected regulate ecosystem productivity, biodiversity, resilience, forming basis critical services. This review explores mechanisms dynamics biogeochemical C, N, P, S, Si cycles, emphasizing their roles in nutrient/element cycling, plant growth, soil health, especially agricultural systems. The coupling between these facilitated mainly by microbial communities, highlights complexity interactions corresponding implications for stability. Human activities including industrial agriculture, deforestation, pollution disrupt underlying natural processes leading imbalances, degradation, susceptibility climate impacts. Technological advancements such artificial intelligence, remote sensing, real-time monitoring offer innovative solutions studying managing cycles. tools enable precise management, identification vulnerabilities, development sustainable practices. Despite significant progress, research gaps remain, particularly understanding interlinkages responses global change. underscores need integrated approaches that combine interdisciplinary research, technological innovation, land-use strategies mitigate human-induced disruptions enhance resilience. By addressing challenges, services can be safeguarded, ensuring sustainability systems face environmental

Язык: Английский

Biogeochemical Cycles in Plant–Soil Systems: Significance for Agriculture, Interconnections, and Anthropogenic Disruptions DOI Creative Commons
Wajid Zaman, Asma Ayaz, Daniel Puppe

и другие.

Biology, Год журнала: 2025, Номер 14(4), С. 433 - 433

Опубликована: Апрель 17, 2025

Biogeochemical cycles are fundamental to the functioning of plant–soil systems, driving availability and transfer essential nutrients (like carbon (C), nitrogen (N), phosphorus (P), sulfur (S)) as well beneficial elements silicon (Si)). These interconnected regulate ecosystem productivity, biodiversity, resilience, forming basis critical services. This review explores mechanisms dynamics biogeochemical C, N, P, S, Si cycles, emphasizing their roles in nutrient/element cycling, plant growth, soil health, especially agricultural systems. The coupling between these facilitated mainly by microbial communities, highlights complexity interactions corresponding implications for stability. Human activities including industrial agriculture, deforestation, pollution disrupt underlying natural processes leading imbalances, degradation, susceptibility climate impacts. Technological advancements such artificial intelligence, remote sensing, real-time monitoring offer innovative solutions studying managing cycles. tools enable precise management, identification vulnerabilities, development sustainable practices. Despite significant progress, research gaps remain, particularly understanding interlinkages responses global change. underscores need integrated approaches that combine interdisciplinary research, technological innovation, land-use strategies mitigate human-induced disruptions enhance resilience. By addressing challenges, services can be safeguarded, ensuring sustainability systems face environmental

Язык: Английский

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