Affiliation:
1. Northwest Institute of Plateau Biology and Chinese Academy of Sciences Xining China
2. College of Resources and Environment University of Chinese Academy of Sciences Beijing China
3. Institute of Geographic Sciences and Natural Resources Research Chinese Academy of Sciences Beijing China
4. School of Mechanical and Power Engineering Henan Polytechnic University Jiaozuo China
Abstract
AbstractBackgroundsGrazing prohibition and reduced grazing intensity, as two important “vegetation close‐to‐nature recovery” methods, have been suggested as economical and effective technologies for enhancing forage production. However, numerous studies have found that the yield of forage could be increased by removing or reducing grazing in a short time in some steady stage of alpine Kobresia meadows, but not in others. To reveal the mechanism behind this phenomenon, we proposed a series of experiments.MethodsWe monitored the plant and soil characteristics in the key steady stages of Kobresia meadows under reduced and prohibited grazing conditions in the same geographic and climatic environments in the northeastern Qinghai‐Tibet Plateau for 6 years. We estimated the relationships between the plant community and soil nutrients and obtained the following results.ResultsAll measured variables were positively correlated with each other. The plant community structure had higher path coefficients to aboveground biomass, soil organic matter, total nitrogen, and nitrate nitrogen than to other factors. The plant community structure played an important role in response to grazing intensity. Different plant functional groups (PFGs) had different responses to grazing intensity, which led to plant community re‐establishment or re‐organization under different grazing intensities. Poaceae and Kobresia were more sensitive to grazing intensity than other PFGs, and the ratio of Kobresia biomass (including Kobresia humilis and Kobresia pygmaea) to the total biomass of Poaceae and Kobresia could be used as an indicator of regime shifts within plant communities. With Kobresia pygmaea as the dominant species, the prohibition of grazing was not an efficient approach to increase the yield in the steady stages because this treatment needed more time to recover aboveground biomass. If Poaceae is the dominant PFG, grazing should only be prohibited for 3 years in the steady stages because the aboveground biomass will decrease if grazing is prohibited for more than 3 years.ConclusionsTherefore, the different steady stages of alpine meadows require different recovery methods to increase recovery efficiency and speed.
Subject
Plant Science,Agricultural and Biological Sciences (miscellaneous),Agronomy and Crop Science,Ecology, Evolution, Behavior and Systematics
Reference55 articles.
1. Grassland degradation significantly enhances soil CO2 emission
2. Resource Limitation in Plants-An Economic Analogy
3. Functional shifts of grassland soil communities in response to soil warming
4. Cao G. M.(2010).Soil‐biology process and mechanism during alpine Kobresia meadow degradation in the Qinghai‐Tibetan Plateau[Doctoral dissertation Gansu Agricultural University]. Gansu Agricultural University.
5. A review of maintenance, loss and recovery of stability of alpine Kobresia humilis meadow on Tibetan Plateau;Cao G. M.;Pratacultural Science,2010