Effects of stocking rate on the variability of peak standing crop in a desert steppe of Eurasia grassland

TitleEffects of stocking rate on the variability of peak standing crop in a desert steppe of Eurasia grassland
Publication TypeJournal Article
Year of Publication2014
AuthorsWang Z, Jiao S, Han G., Zhao M, Ding H, Zhang X, Wang X, Ayers E.L., Willms W, Havstad K, Liu Y
JournalEnvironmental Management
Start Page266
Date Published02/2014
ARIS Log Number302432
Keywordsecosystem stability, peak standing crop, plant functional group, sheep grazing, Stipa breviflora Griseb

Proper grazing management practices can generate corresponding compensatory effects on plant community production, which may reduce inter-annual variability of productivity in some grassland ecosystems. However, it remains unclear how grazing influences plant community attributes and the variability of standing crop. We examined the effects of sheep grazing at four stocking rate treatments [control, 0 sheep ha-1 month-1; light (LG), 0.15 sheep ha-1 month-1; moderate (MG), 0.30 sheep ha-1 month-1; and heavy (HG), 0.45 sheep ha-1 month-1] on standing crop at the community level and partitioned by species and functional groups, in the desert steppe of Inner Mongolia, China. The treatments were arranged in a completely randomized block design over a 9-year period.  Standing crop was measured every August from 2004 to 2012. Peak standing crop decreased (P\0.05) with increasing stocking rate; peak standing crop in the HG treatment decreased 40 % compared to the control. May–July precipitation explained at least 76 % of the variation in peak standing crop. MG and HG treatments resulted in a decrease (P\0.05) in shrubs, semi-shrubs, and perennials forbs, and an increase (P\0.05) in perennial bunchgrasses compared to the control. The coefficients of variation at plant functional group and species level in the LG and MG treatments were lower (P\0.05) than in the control and HG treatments. Peak standing crop variability of the control and HG community were greatest, which suggested that LG and MG have greater ecosystem stability.