Register      Login
The Rangeland Journal The Rangeland Journal Society
Journal of the Australian Rangeland Society
RESEARCH ARTICLE

Hoof pressure and trampling intensity of yaks are higher than those of Tibetan sheep in a Tianzhu alpine meadow

Hailei Yang A C , Jinjin Sun A C , Changlin Xu A , Jianwen Zhang A , Jinlong Chai A , Ting Jiao A and Xiaojun Yu A B
+ Author Affiliations
- Author Affiliations

A College of Grassland Science, Gansu Agricultural University/Key Laboratory of Grassland Ecosystem, Ministry of Education/Sino-U.S. Center for Grassland Ecosystem Sustainability, Lanzhou, Gansu 730070, China.

B Corresponding author. Email: yuxj@gsau.edu.cn

C Co-first authors.

The Rangeland Journal 41(2) 125-133 https://doi.org/10.1071/RJ18073
Submitted: 26 July 2018  Accepted: 18 February 2019   Published: 2 April 2019

Abstract

Trampling by grazing animals exerts a comprehensive and serious effect on grassland vegetation and soil. In order to compare the trampling of yaks and Tibetan sheep under different grazing intensities, we examined the hoof pressure and trampling intensity (based on trampling area and hoof-print count) of white yaks (Poephagus grunniens) and Tibetan sheep (Ovis ammon) in an alpine meadow of Tianzhu County, Gansu Province, China, under conditions where either grazing area or livestock number were controlled. The average areas trampled by yaks and Tibetan sheep were 39.2 and 21.6 cm2 respectively. The average hoof pressure of yaks and Tibetan sheep were 6.89 and 3.13 kg cm–2 respectively. The yak-to-sheep ratio of the average area trampled was 1.81 : 1, whereas the yak-to-sheep ratio of average hoof pressure was 2.20 : 1. Average ingestion and walking trampling intensities of yaks were 384.8 × 103 and 247.1 × 103 kg cm–2, respectively, in controlled grazing areas, and 439.1 × 103 and 756.3 × 103 kg cm–2, respectively, in areas of controlled livestock numbers. These values for Tibetan sheep were 15.3 × 103 and 120.3 × 103 kg cm–2 in controlled grazing areas, and 42.6 × 103 and 128.2 × 103 kg cm–2 in areas of controlled livestock numbers. In controlled grazing areas, the ingestion and walking trampling intensities of yaks were 25.2 and 5.4 times higher, respectively, than those of sheep. Under areas of controlled livestock numbers, these values were 10.3 and 5.9 times higher, respectively, than those of sheep. The average trampling intensity of yaks was 7.3 times higher than that of the sheep. Therefore, under conditions of similar grazing intensity, yaks cause more damage than Tibetan sheep in alpine meadows.

Additional keywords: grazing intensity, livestock trampling area, number of steps, Ovis ammon, Poephagus grunniens.


References

Animut, G., Goetsch, A. L., Aiken, G. E., Puchala, R., Detweiler, G., Krehbiel, C. R., Merkel, R. C., Sahlu, T., Dawson, L. J., Johnson, Z. B., and Gipson, T. A. (2005). Grazing behavior and energy expenditure by sheep and goats co-grazing grass/forb pastures at three stocking rates. Small Ruminant Research 59, 191–201.
Grazing behavior and energy expenditure by sheep and goats co-grazing grass/forb pastures at three stocking rates.Crossref | GoogleScholarGoogle Scholar |

Askar, A. R., Gipson, T. A., Puchala, R., Tesfai, K., Detweiler, G. D., Asmare, A., Kelic, A., Sahlua, T., and Goetsch, A. L. (2013). Effects of stocking rate and physiological state of meat goats grazing grass/forb pastures on forage intake, selection, and digestion, grazing behavior, and performance. Livestock Science 154, 82–92.
Effects of stocking rate and physiological state of meat goats grazing grass/forb pastures on forage intake, selection, and digestion, grazing behavior, and performance.Crossref | GoogleScholarGoogle Scholar |

Bilotta, G. S., Brazier, R. E., and Haygarth, P. M. (2007). The impacts of grazing animals on the quality of soils, vegetation, and surface waters in intensively managed grasslands. Advances in Agronomy 94, 237–280.
The impacts of grazing animals on the quality of soils, vegetation, and surface waters in intensively managed grasslands.Crossref | GoogleScholarGoogle Scholar |

Chai, J. L., Xu, C. L., and Yang, H. L. (2017). Effect of simulated trampling and rainfall on soil physical properties and microorganism abundance in an alpine meadow. Acta Prataculturae Sinica 26, 30–42.

Chai, J. L., Xu, C. L., Zhang, D. G., Xiao, H., Pan, T. T., and Yu, X. J. (2018). Effects of simulated trampling and rainfall on soil nutrients and enzyme activity in an alpine meadow. Acta Ecologica Sinica 39, 1–12.

Chen, Z. Z., Huang, D. H., and Zhang, H. F. (1988). ‘Discussion on the Relationship between Inner Mongolia Tin River Basin Forest Steppe of Leymus chinensis and Stipa grandis Grassland Biomass and Precipitation Model of Grassland Ecosystem.’ pp. 20–26. (Science Press: Beijing) [In Chinese]

Cole, D. N., and Bayfield, N. G. (1993). Recreational trampling of vegetation: standard experimental procedures. Biological Conservation 63, 209–215.
Recreational trampling of vegetation: standard experimental procedures.Crossref | GoogleScholarGoogle Scholar |

Cuevas, J. G., and Quesne, C. L. (2006). Low vegetation recovery after short-term cattle exclusion on Robinson Crusoe Island. Plant Ecology 183, 105–124.
Low vegetation recovery after short-term cattle exclusion on Robinson Crusoe Island.Crossref | GoogleScholarGoogle Scholar |

Dong, S. K., Wang, X. X., Liu, S. L., Li, Y. Y., Su, X. K., Wen, L., and Zhu, L. (2015). Reproductive responses of alpine plants to grassland degradation and artificial restoration in the Qinghai-Tibetan Plateau. Grass and Forage Science 70, 229–238.
Reproductive responses of alpine plants to grassland degradation and artificial restoration in the Qinghai-Tibetan Plateau.Crossref | GoogleScholarGoogle Scholar |

Du, W. C. (2016). ‘Grazing Management Effects on Intaking Behaviour and Body Weight of Tibetan Sheep.’ (Lanzhou University: Lanzhou, China) [In Chinese]

Elias, D., Hölzel, N., and Tischew, S. (2018). Positive effects of goat pasturing on the threatened spring geophyte Gagea bohemica in formerly abandoned dry grasslands. Flora , .
Positive effects of goat pasturing on the threatened spring geophyte Gagea bohemica in formerly abandoned dry grasslands.Crossref | GoogleScholarGoogle Scholar |

Fu, Y. K., and Sun, J. X. (1986). ‘Grassland Improvement and Utilization – Rational Use of Grassland.’ pp. 57–135. (Gansu Science and Technology Press: Lanzhou, China) [In Chinese]

Greenwood, K. L., and McKenzie, B. M. (2001). Grazing effects on soil physical properties and the consequences for pastures: a review. Australian Journal of Experimental Agriculture 41, 1231–1250.
Grazing effects on soil physical properties and the consequences for pastures: a review.Crossref | GoogleScholarGoogle Scholar |

Guo, Y. J., Long, R. J., Zhang, D. G., and Hu, Z. Z. (2003). Determination of dry matter degradation of feeding shrubs and forages by gas production method. Acta Prataculturae Sinica 12, 54–60.

Guo, N., Wang, A. D., Degenb, A., Deng, B., Shang, Z. H., Ding, L. M., and Long, R. J. (2018). Grazing exclusion increases soil CO2 emission during the growing season in alpine meadows on the Tibetan Plateau. Atmospheric Environment 174, 92–98.
Grazing exclusion increases soil CO2 emission during the growing season in alpine meadows on the Tibetan Plateau.Crossref | GoogleScholarGoogle Scholar |

Hill, A. M., Di, H. J., Cameron, K., and Podolyan, A. (2015). The effect of animal trampling and DCD on ammonia oxidisers, nitrification, and nitrate leaching under simulated winter forage grazing conditions. Journal of Soils and Sediments 15, 972–981.
The effect of animal trampling and DCD on ammonia oxidisers, nitrification, and nitrate leaching under simulated winter forage grazing conditions.Crossref | GoogleScholarGoogle Scholar |

Hodgson, J. (1990). ‘Grazing Management - Science into Practice.’ (Longman Science & Technical Press: New York.)

Hou, F. J., and Ren, J. Z. (2003). Evaluation on trampling of Gansu wapiti (Cervus elaphuskansuensis Pocock) and its effects on soil property in winter grazing land. Acta Ecologica Sinica 23, 486–495.

Kang, L., Han, X., Zhang, Z., and Sun, O. J. (2007). Grassland ecosystems in China: review of current knowledge and research advancement. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences 362, 997–1008.
Grassland ecosystems in China: review of current knowledge and research advancement.Crossref | GoogleScholarGoogle Scholar | 17317645PubMed |

LeCain, D. R., Morgan, J. A., Schuman, G. E., Reeder, J. D., and Hart, R. H. (2002). Carbon exchange and species composition of grazed pastures and exclosures in the shortgrass steppe of Colorado. Agriculture, Ecosystems & Environment 93, 421–435.
Carbon exchange and species composition of grazed pastures and exclosures in the shortgrass steppe of Colorado.Crossref | GoogleScholarGoogle Scholar |

Li, F. (2001). ‘Chinese Soil Taxonomy.’ (Science Press: Beijing) [In Chinese]

Lin, H. L. (2007a). Pastoral agriculture science goes through structural description stage to precise development stage. Pratacultural Science 24, 55–62.

Lin, H. L. (2007b). ‘Quantitative studies of the effects of trampling on typical steppe of Huanxian in Eastern Gansu, China.’ (Lanzhou University: Lanzhou, China) [In Chinese]

Lin, H. L., Hou, F. J., and Ren, J. Z. (2008). Evaluation of indicators of grazing trampling intensity. Acta Prataculturae Sinica 17, 85–92.

Lin, L. J., Dickhoefera, U., Müllera, K., Wurina, , and Susenbeth, A. (2011). Grazing behavior of sheep at different stocking rates in the Inner Mongolian steppe, China. Applied Animal Behaviour Science 129, 36–42.
Grazing behavior of sheep at different stocking rates in the Inner Mongolian steppe, China.Crossref | GoogleScholarGoogle Scholar |

Liss, B. M. (1988). Der Einfluss von Weidevieh und wild auf dienatürliche und künstliche Verjüngung in Bergmischwald derostbayerischen Alpen. Forstwiss Centralbl 107, 14–25.
Der Einfluss von Weidevieh und wild auf dienatürliche und künstliche Verjüngung in Bergmischwald derostbayerischen Alpen.Crossref | GoogleScholarGoogle Scholar |

Liu, F. Y., and Long, R. J. (2009). Effect of different grazing intensities on grazing behavior of yak in summer. Journal of Lanzhou University 45, 55–61.

Lyons, R. K., and Machen, R. V. (2000). Interpreting grazing behaviour. Available at: http://hdl.handle.net/1969.1/86955 (accessed 23 February 2019).

Ma, C. M., Yang, J., and Wei, Z. H. (2000). The comparison of grazing behavior of sheep. Inner Mongolia Prataculture 2, 53–57.

Mayer, A. C., Stöckli, V., Konold, W., and Kreuzer, M. (2006). Influence of cattle stocking rate on browsing of Norway spruce in subalpine wood pastures. Agroforestry Systems 66, 143–149.
Influence of cattle stocking rate on browsing of Norway spruce in subalpine wood pastures.Crossref | GoogleScholarGoogle Scholar |

Mysterud, A., Hessena, D., Mobæk, R., Martinsen, V., Mulder, J., and Austrheim, G. (2011). Plant quality, seasonality and sheep grazing in an alpine ecosystem. Basic and Applied Ecology 12, 195–206.
Plant quality, seasonality and sheep grazing in an alpine ecosystem.Crossref | GoogleScholarGoogle Scholar |

Schönbach, P., Wan, H., Gierus, M., Loges, R., Müller, K., Lin, L., Susenbeth, A, and Taube, F. (2012). Effects of grazing and precipitation on herbage production, herbage nutritive value and performance of sheep in continental steppe. Grass and Forage Science 67, 535–545.
Effects of grazing and precipitation on herbage production, herbage nutritive value and performance of sheep in continental steppe.Crossref | GoogleScholarGoogle Scholar |

Soil Survey Staff (2003). ‘Keys to Soil Taxonomy.’ 9th edn. (United States Department of Agriculture and Natural Resources Conservation Service: Washington, DC.)

Turner, M. G. (1987). Effects of grazing by feral horses, clipping, trampling, and burning on a Georgia salt marsh. Estuaries and Coasts 10, 54–60.
Effects of grazing by feral horses, clipping, trampling, and burning on a Georgia salt marsh.Crossref | GoogleScholarGoogle Scholar |

Valkó, O., Venn, S., Zmihorski, M., Biurrun, I., Labadessa, R., and Loos, J. (2018). The challenge of abandonment for the sustainable management of Palaearctic natural and semi-natural grasslands. Hacquetia 17, 5–16.
The challenge of abandonment for the sustainable management of Palaearctic natural and semi-natural grasslands.Crossref | GoogleScholarGoogle Scholar |

Wang, S. P. (1997). Behavior ecology of grazing sheep. II Influence of stocking rates on foraging behavior of wether. Acta Prataculturae Sinica 6, 10–17.

Xiao, H., Xu, C. L., Zhang, D. G., Zhang, J. W., Yang, H. L., Chai, J. L., Pan, T. T., Wang, Y., and Yu, X. J. (2017). Short-term photosynthetic responses of Medicago ruthenia var. inschanicus to simulated yak and Tibetan sheep trampling and rainfall. Acta Prataculturae Sinica 26, 43–52.

Xiao, H., Peng, Z., Xu, C. L., Zhang, D. G., Chai, J. L., Pan, T. T., and Yu, X. J. (2018). Yak and Tibetan sheep trampling inhibit reproductive and photosynthetic traits of Medicago ruthenica var. inschanica. Environmental and Monitoring Assessment 190, 507.
Yak and Tibetan sheep trampling inhibit reproductive and photosynthetic traits of Medicago ruthenica var. inschanica.Crossref | GoogleScholarGoogle Scholar |

Yu, X. J., and Xu, C. L. (2012). A method of measuring the trampling area of grazing livestock. Gansu: CN102589507A. [In Chinese]

Yu, X. J., Jin, Y. Y., Xu, C. L., Shi, S. L., Zhang, J. W., Chen, L. J., Yang, H. L., and Xiao, H. (2015). Effects of film mulching on growth and crown and root characteristics of alfalfa in an alpine meadow. Acta Prataculturae Sinica 24, 43–52.

Zhang, Y. L., Li, B. Y., and Zheng, D. (2002). A discussion on the boundary and area of the Tibetan Plateau in China. Geographical Research 21, 1–8.

Zhang, Y., Gao, Q. Z., Dong, S. K., Ruth, S., Wang, X. X., Li, Y. Y., Tang, L., and Wu, X. Y. (2015). Effects of grazing and climate warming on plant diversity, productivity and living state in the alpine rangelands and cultivated grasslands of the Qinghai-Tibetan Plateau. The Rangeland Journal 37, 57–65.
Effects of grazing and climate warming on plant diversity, productivity and living state in the alpine rangelands and cultivated grasslands of the Qinghai-Tibetan Plateau.Crossref | GoogleScholarGoogle Scholar |

Zhen, P. L. (1988). Breeds of domestic animal and poultry in China. In ‘Bovine Breeds in China’. (Shanghai Scientific and Technical Publishers: Shanghai) [In Chinese].