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Soil protist functional composition shifts with atmospheric nitrogen deposition in subtropical forests

Jianqing Wang, Chengyang Zheng, Manuel Esteban Lucas‐Borja, Xiuzhen Shi

2023Journal of Applied Ecology11 citationsDOIOpen Access PDF

Abstract

Abstract Soil protists play a key role in driving ecological functions through predation and parasitism. However, little is known about how nitrogen (N) deposition and seasonal variation influence soil protist functions in forest soils. Here, we assessed first the impacts of N deposition (control, 50, 100 and 150 kg N ha −1 year −1 ) on the functional composition of the soil protist community in summer and winter, using amplicon sequencing of environmental DNA from a subtropical natural forest. We found that soil protists were dominated by consumers (42.6%–51.6%), followed by parasites (32.9%–40.9%) and phototrophs (3.2%–13.1%), implying a predominant role of consumers and potential top‐down effects on the other trophic groups in subtropical forest soils. The functional composition of soil protists was greatly influenced by N deposition, but these responses were dependent on seasonal variation. The diversity of phototrophs was lower in summer than in winter. Instead, an opposite pattern was observed for consumers, resulting in a significantly higher protist diversity in summer than in winter. Furthermore, low and high N deposition simplified the structural complexity of soil protist communities, suggesting a nonlinear response of protist structural stability to N deposition. Synthesis and applications . This study provides unprecedented evidence that seasonal variation plays an important role in regulating responses of soil protist functional composition to N deposition, and highlights the nonlinear effects of rising N deposition on the soil food web.

Topics & Concepts

ProtistDeposition (geology)Tropical and subtropical moist broadleaf forestsSubtropicsEcologyFood webTrophic levelSoil waterBiologyEnvironmental scienceSedimentPaleontologyBiochemistryGeneMicrobial Community Ecology and PhysiologyProtist diversity and phylogenySoil Carbon and Nitrogen Dynamics
Soil protist functional composition shifts with atmospheric nitrogen deposition in subtropical forests | Litcius