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RESEARCH ARTICLE (Open Access)
Contents Vol 36(6)

Different responses of plant species to deferment of sheep grazing in a desert steppe of Inner Mongolia, China

Zhen Wang A , Xiangyang Hou A D , Michael P. Schellenberg C , Yan Qin A , Xiangjun Yun A D , Zhijun Wei B , Chao Jiang A and Yunfeng Wang A
+ Author Affiliations
- Author Affiliations

A Institute of Grassland Research, Chinese Academy of Agricultural Sciences, Hohhot 010010, P.R. China.

B Department of Grassland Science, College of Ecology and Environmental Science, Inner Mongolia Agricultural University, 306 Zhaowuda Road, Hohhot, Inner Mongolia 010018, P.R. China.

C Semiarid Prairie Agricultural Research Centre (SPARC), AAFC-AAC, Box 1030, Swift Current, Saskatchewan, Canada S9H 3X2.

D Corresponding authors. Email: Yunxiangjun@126.com; houxy16@126.com

The Rangeland Journal 36(6) 583-592 https://doi.org/10.1071/RJ13115
Submitted: 13 November 2013  Accepted: 4 November 2014   Published: 5 December 2014

Journal Compilation © Australian Rangeland Society 2014

Abstract

This paper reports the effects of different deferments of sheep grazing on plant variables of desert steppe vegetation in Inner Mongolia during 2010–2012. The study was initiated in May 2010 and comprised five treatments: no grazing (UG), grazing throughout the growing season (G) and grazing deferment for 40, 50 and 60 days (40UG, 50UG and 60UG) from the start of the growing season in a completely randomised block design replicated three times. The plant species were classified into two functional groups (C3 and C4 species) and the relationships among species composition, biomass and annual precipitation were examined in different deferments of sheep grazing. Treatment G significantly decreased the biomass of several species compared with some of the deferred treatments and treatment UG, because of differences in grazing preferences, and, consequently, decreased the aboveground net primary productivity (ANPP). Grazing deferment for 40, 50 and 60 days significantly increased C3-species richness and biomass compared with treatment UG, whereas grazing sheep’s preferences for C4 plants at some growth stages compared with C3 plants, resulted in lower species richness and biomass of C4 plants in treatments G, 40UG and 50UG in a dry year. Similarly, different species responses to treatment 60UG resulted in an increase in ANPP in a year with more precipitation during the growing season. The annual precipitation patterns strongly affected the temporal changes in biomass as well as the responses to grazing, indicating that the plant responses in the desert steppe were co-limited by grazing and precipitation. These findings provide important insights into the management and conservation of desert steppe vegetation in Inner Mongolia.

Additional keywords: aboveground net primary productivity, C3 species, C4 species, grazing preferences, plant functional groups.


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