TY - JOUR
T1 - Functional group dominance and not productivity drives species richness
AU - Li, Wenjin
AU - Knops, Johannes M.H.
AU - Brassil, Chad E.
AU - Lu, Junfeng
AU - Qi, Wei
AU - Li, Jinhua
AU - Liu, Minxia
AU - Chang, Shenghua
AU - Li, Wenlong
N1 - Publisher Copyright:
© 2016 Botanical Society of Scotland and Taylor & Francis.
PY - 2016/3/3
Y1 - 2016/3/3
N2 - Background: There is a lack of consensus about the productivity–richness relationship, with several recent studies suggesting that it is not productivity but other factors that are the important drivers that determine species richness. Aims: Here, we examine the relationship between productivity, functional group dominance and plant species richness at the plot scale in Tibetan Plateau meadows. These alpine meadows are ideal to examine the species productivity-richness relationship because they have a very high species richness, a large gradient in productivity, and can be dominated by either graminoids (grasses and sedges) or forbs. Methods: We measured plant species richness and above-ground biomass along a natural gradient of functional group abundance in 44 plots distributed across five natural, winter-grazed but otherwise undisturbed sites in the eastern part of the Qing-Hai Tibetan Plateau, in Gansu province, China in 2008. Results: Graminoid abundance (i.e. graminoid biomass as percent of the total above-ground biomass) explained 39% of plot differences in species richness while neither productivity nor the biomass of the three most abundant plant species, either individually or combined, were a significant predictor of species richness. Conclusions: Our results show that within these alpine meadows, a shift from graminoid to forb dominance, rather than the individual dominant species or productivity itself, is strongly correlated with species richness. Thus, differences in functional group abundance can be a strong driver of observed plant species richness patterns.
AB - Background: There is a lack of consensus about the productivity–richness relationship, with several recent studies suggesting that it is not productivity but other factors that are the important drivers that determine species richness. Aims: Here, we examine the relationship between productivity, functional group dominance and plant species richness at the plot scale in Tibetan Plateau meadows. These alpine meadows are ideal to examine the species productivity-richness relationship because they have a very high species richness, a large gradient in productivity, and can be dominated by either graminoids (grasses and sedges) or forbs. Methods: We measured plant species richness and above-ground biomass along a natural gradient of functional group abundance in 44 plots distributed across five natural, winter-grazed but otherwise undisturbed sites in the eastern part of the Qing-Hai Tibetan Plateau, in Gansu province, China in 2008. Results: Graminoid abundance (i.e. graminoid biomass as percent of the total above-ground biomass) explained 39% of plot differences in species richness while neither productivity nor the biomass of the three most abundant plant species, either individually or combined, were a significant predictor of species richness. Conclusions: Our results show that within these alpine meadows, a shift from graminoid to forb dominance, rather than the individual dominant species or productivity itself, is strongly correlated with species richness. Thus, differences in functional group abundance can be a strong driver of observed plant species richness patterns.
KW - Tibetan Plateau
KW - dominance–richness
KW - functional groups
KW - graminoid abundance
KW - graminoid dominance
KW - productivity–richness relationship
KW - species diversity
KW - species richness
UR - http://www.scopus.com/inward/record.url?scp=84970028840&partnerID=8YFLogxK
U2 - 10.1080/17550874.2016.1180563
DO - 10.1080/17550874.2016.1180563
M3 - Article
AN - SCOPUS:84970028840
SN - 1755-0874
VL - 9
SP - 141
EP - 150
JO - Plant Ecology and Diversity
JF - Plant Ecology and Diversity
IS - 2
ER -