Interannual variation in ecosystem respiration in an Inner Mongolian meadow steppe in response to livestock grazing

• Main Authors: Jin, D. (Author), Li, L. (Author), Li, R. (Author), Wang, M. (Author), Xin, X. (Author), Yan, R. (Author), Zhang, Y. (Author)
• Format: Article
• Language: English
• Published: Elsevier B.V. 2021
• Subjects: %moisture; aboveground biomass; Agriculture; annual variation; Biomass; Canopy biomass; cattle; China; Climate change; ecosystem dynamics; Ecosystem respiration; ecosystem response; Ecosystems; grassland; grazing; Grazing intensity; grazing management; Growing season; Livestock grazing; meadow; Meadow steppes; Nei Monggol; Phosphorus; Rain; Respiration rate; Soil moisture; Soil nutrient; Soil nutrients; soil respiration; steppe; Temperate steppe
• Online Access: View Fulltext in Publisher

 Understanding the effects of livestock grazing on ecosystem respiration (Re) of grassland ecosystems is critical for accurately assessing the feedback of grazing management to climate change. We examined ecosystem respiration in response to varying cattle grazing intensities during growing seasons from 2009 to 2018 in a meadow steppe ecosystem of eastern Inner Mongolia. We found that ungrazed swards had the highest mean annual Re rate, with seasonal CVs in Re ranging from 37.53% to 46.04% for all treatments. When all treatments were analysed as a whole, we identified a significant positive relationship between the annual Re rate and annual peak value of standing plant aboveground biomass. Our findings showed that controlling factors on the mean annual Re differed substantially with grazing intensity. In ungrazed and lightly-grazed plots (G0.00 and G0.23), the mean annual Re rate was controlled mainly by canopy height and/or rainfall, while it was controlled more predominantly by contents of NH4+-N and available phosphorus in moderately and heavily grazed plots. We detected significant positive relationships of the annual Re rate with rainfall, soil moisture, ammonium nitrogen, and soil available phosphorus during the entire study period, whereas significant negative relationships were detected between the annual ecosystem respiration rate and the mean growing season temperature, irrespective of grazing intensity. Our findings revealed that grazing could substantially simplify the relationship between the mean annual Re rate and biotic and abiotic parameters. It may be concluded that the relationship between the annual Re rate and the standing crop aboveground biomass was a principal mechanism underlying the effects of gradient grazing on the Re of Chinese meadow steppe ecosystems. © 2021