Global Ecology and Conservation (Jun 2023)

Temperature sensitivities of aboveground net primary production, species and phylogenetic diversity do not increase with increasing elevation in alpine grasslands

  • Fusong Han,
  • Chengqun Yu,
  • Gang Fu

Journal volume & issue
Vol. 43
p. e02464

Abstract

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Responses of aboveground net primary production (ANPP), species and phylogenetic α- and β-diversity of plant community to a long-term experimental warming are not fully understood in alpine grasslands on the Tibetan Plateau. A long-term warming experiment was deployed at three alpine grassland sites (4313 m, 4513 m, 4693 m) in the Northern Tibet since 2010. The ANPP, plant α- and β-diversity were investigated in 2011–2019. Experimental warming reduced multi-year mean ANPP, aboveground net primary production of sedge and aboveground net primary production of graminoid by 42.53%, 71.18% and 89.59% at elevation 4313 m, aboveground net primary production of forb by 30.23% at elevation 4513 m, and aboveground net primary production of sedge by 27.56% at elevation 4693 m, but increased aboveground net primary production of forb by 33.88% at elevation 4313 m in 2011–2019. Experimental warming reduced multi-year mean species richness by 20.70% and phylogenetic diversity by 14.72% at elevation 4313 m, species richness by 10.31% and phylogenetic diversity by 10.00% at elevation 4693 m in 2011–2019. The temperature sensitivities (the relative change caused by 1 °C increase in air temperature) of ANPP, species and phylogenetic α-diversity decreased with increasing warming duration, but the temperature sensitivity of phylogenetic β-diversity increased with increasing warming duration (p < 0.05). The temperature sensitivities of both species and phylogenetic β-diversity decreased linearly with increasing elevation (p < 0.05). However, the temperature sensitivities of ANPP, species and phylogenetic α-diversity were not significantly correlated with increasing elevation. Therefore, warming may cause the degradation of Tibetan alpine grasslands through reducing aboveground net primary production and plant α-diversity, especially under the long-term warming conditions. Moreover, it was not always the higher the elevation, the greater the temperature sensitivity of aboveground net primary production, species and phylogenetic diversity.

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