Effect of short-term nitrogen deposition on dry-wet seasonal variation of soil respiration in degraded Poa pratensis alpine meadow of the Napahai,Yunnan,China
To explore the coupling of dry-wet seasonal variations of soil respiration with their environmental factors in the alpine meadow under the background of increasing nitrogen(N)deposition,we conducted an experiment in the typical degraded Poa pratensis meadow in the Napahai,Yunnan.There were four treatments,i.e.,control(0 g·m-2·a-1),low(5 g·m-2·a-1),medium(10 g·m-2·a-1),and high(15 g·m-2·a-1)levels.We examined the effects of aboveground biomass,plant diversity,and soil physicochemical properties on soil respiration.The results showed that N deposition significantly promoted soil respiration.Compared with that in the control,soil respiration rates increased by 21.9%-53.9%and 27.3%-51.2%in dry and wet seasons,respectively.The maxi-mum value of soil respiration rate was recorded in the medium N treatment.N deposition dramatically elevated aboveground biomass(52.2%-66.4%).Plant diversity declined with increasing N addition levels,with the maxi-mum value(13.5%-24.2%)being recorded in high treatment in wet season.The values of ammonium nitrogen,organic matter,microbial biomass carbon and nitrogen,temperature and moisture in the three N treatments were elevated by 14.3%-333.5%compared with the control,while those of soil pH were decreased by 9.0%-34.6%.Results of the structural equation modelling showed that plant biomass,Shannon diversity,microbial biomass,soil temperature,and moisture showed a positive effect on soil respiration,while bulk density had a negative effect.Soil nitrogen pool and pH were main factors driving soil CO2 emissions,accounting for 55.7%and 45.1%of the varia-tions,respectively.Therefore,short-term atmospheric N deposition stimulated soil respiration primarily via altering soil pH and nitrogen pool components in the degraded alpine meadow.
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