Browsing Rangeland Ecology & Management, Volume 66, Number 4 (July 2013) by Authors
Grazing-Exclusion Effects on Aboveground Biomass and Water-Use Efficiency of Alpine Grasslands on the Northern Tibetan PlateauWu, Jianshuang; Zhang, Xianzhou; Shen, Zhenxi; Shi, Peili; Xu, Xingliang; Li, Xiaojia (Society for Range Management, 2013-07-01)The influences of grazing exclusion on plant species composition and intrinsic water use efficiency (Wi) of alpine grasslands on the Northern Tibet Plateau are not well understood. We conducted a multisite transect field survey across the three main alpine ecosystems (meadow, steppe, and desert steppe) with nine pairs of grazing excluded and adjacent open grazed pastures. Short-term grazing exclusion (started in 2006) did not result in significant changes in nutrients or bulk density of the surface soils (0 - 15 cm), but it slightly changed the aboveground biomass (AGB) and coverage at both community and species levels. Community foliar δ13C and Wi differed among alpine grassland types, with values for steppe being similar to those for meadow and with desert steppe values being higher than both of these. Foliar δ13C and inferred Wi differed among the dominant species and varied negatively with precipitation and positively with temperature in 2010. These results confirm that there is an environmentally selective effect on the replacement of dominant species.There was no evident difference in foliar δ13C or Wi between grazing-excluded and open grazed sites, but there was a slight increase of AGB and coverage in grazing excluded sites compared to open grazed ones at the species and community levels. These results indicated that grazing exclusion may have no clear influence on the physiological processes related to foliar water usage at the species level, but may have a cumulative effect on the carbon-water balance at the community level. Slight changes in linear regressions of foliar δ13C and Wi plotted across climatic gradients indicated that grasslands under grazing management might be more sensitive to regional climatic changes.