Differential responses of plant functional trait to grazing between two contrasting dominant C3 and C4 species in a typical steppe of Inner Mongolia, China

Plant functional traits have been widely used to study the linkage between environmental drivers, trade-offs among different functions within a plant, and ecosystem structure and functioning. Here, the whole-plant traits, leaf morphological and physiological traits of two dominant species, Leymus ch...

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Bibliographic Details
Published in:Plant and soil 2011-03, Vol.340 (1-2), p.141-155
Main Authors: Zheng, Shuxia, Lan, Zhichun, Li, Wenhuai, Shao, Ruixin, Shan, Yumei, Wan, Hongwei, Taube, Friedhelm, Bai, Yongfei
Format: Article
Language:English
Subjects:
Aquatic plants
Biomass
Biomedical and Life Sciences
Cleistogenes squarrosa
Dominant species
Ecology
Ecosystem components
Ecosystem structure
Grasses
Grasslands
Grazing
Grazing intensity
Leaf area
Leaf morphological trait
Leaf physiological trait
Leaves
Leymus chinensis
Life Sciences
Pastures
Photosynthesis
Physiology
Plant biology
Plant Physiology
Plant Sciences
Plants
Precipitation
Precipitation variability
Rain and rainfall
Regular Article
Soil Science & Conservation
Soil sciences
Soil water
Species
Steppes
Stocking rate
Terrestrial ecosystems
Whole-plant trait
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Summary:Plant functional traits have been widely used to study the linkage between environmental drivers, trade-offs among different functions within a plant, and ecosystem structure and functioning. Here, the whole-plant traits, leaf morphological and physiological traits of two dominant species, Leymus chinensis (C₃ perennial rhizome grass) and Cleistogenes squarrosa (C₄ perennial bunchgrass), were studied in the Inner Mongolia grassland of China, with a grazing experiment including five stocking rates (0, 3.0, 4.5, 7.5, and 9.0 sheep/ha) in 2008 (wet year) and 2009 (dry year). Our results demonstrated that, for both species, the effects of stocking rate, year, and stocking rate × year on whole-plant traits and leaf morphological and physiological traits were highly significant in most cases. The differential responses of plant trait to variation in precipitation were caused by trait trade-offs between the wet and dry years. L. chinensis adopted the high N content and net photosynthetic rate (Pn) in the wet year but both the low N content and Pn in the dry year under grazed conditions. The trait trade-offs of C. squarrosa were characterized by high specific leaf area (SLA) and Pn in the dry year vs. low SLA and Pn in the wet year. Our findings also indicate that C. squarrosa is more resistant to grazing than L. chinensis in terms of avoidance and tolerance traits, particularly under heavy grazing pressure and in the dry year.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-010-0369-3