Complementarity effects among plant–pollinator interactions can enhance community seed production in semi-arid natural grasslands

Niche complementarity (i.e., complementarity effect) or differences in competitive ability (i.e., selection effect) are the two main mechanisms underlying the biodiversity and ecosystem functioning relationships within a single trophic level. However, few studies have explored such operating mechani...

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Published inJournal of arid environments Vol. 224; p. 105221
Main Authors Nishimura, Issei, Tachibana, Taiki, Uchida, Kei, Lu, Xiaoming, Zhao, Xuezhen, Bai, Yongfei, Sasaki, Takehiro
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2024
Subjects
Biodiversity effect
Biodiversity-ecosystem functioning
China
Complementarity effect
dominant species
ecosystems
functional diversity
grasslands
Multitrophic
Pollination
pollinators
species
species richness
trophic levels
China
Complementarity effect
Biodiversity-ecosystem functioning
Multitrophic
Biodiversity effect
Pollination
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Abstract Niche complementarity (i.e., complementarity effect) or differences in competitive ability (i.e., selection effect) are the two main mechanisms underlying the biodiversity and ecosystem functioning relationships within a single trophic level. However, few studies have explored such operating mechanisms across multitrophic levels and ecosystem functions, such as pollination. In this large grassland biodiversity study in Inner Mongolia, we partitioned the net biodiversity effect on seed production into the complementarity and selection effects and related these effects to functional diversity and the composition of flowering plant traits, and a range of plant–pollinator network parameters. The positive effect of plant species richness on the complementarity effects overwhelmed the negative effect on the selection effects. Hence, plant diversity positively impacted the net biodiversity effects. In addition, the net biodiversity and complementarity effects were increased in plant communities dominated by species with long inflorescences, suggesting that the facilitative effects of these dominant species attract more pollinators for other species. Furthermore, the complementarity effect increased with decreasing niche overlap of pollinator species, indicating complementary resource use among plant–pollinator interactions. Collectively, our findings highlight the importance of multitrophic interactions in maintaining multitrophic ecosystem functions. •Positive complementarity effects and negative selection effects of seed production occurred with plant species richness.•Complementarity effect of seed production increases with complementary resource use among plant–pollinator interactions.•Complementarity effect of seed production increases with dominance of plant species with long inflorescence length.
AbstractList Niche complementarity (i.e., complementarity effect) or differences in competitive ability (i.e., selection effect) are the two main mechanisms underlying the biodiversity and ecosystem functioning relationships within a single trophic level. However, few studies have explored such operating mechanisms across multitrophic levels and ecosystem functions, such as pollination. In this large grassland biodiversity study in Inner Mongolia, we partitioned the net biodiversity effect on seed production into the complementarity and selection effects and related these effects to functional diversity and the composition of flowering plant traits, and a range of plant–pollinator network parameters. The positive effect of plant species richness on the complementarity effects overwhelmed the negative effect on the selection effects. Hence, plant diversity positively impacted the net biodiversity effects. In addition, the net biodiversity and complementarity effects were increased in plant communities dominated by species with long inflorescences, suggesting that the facilitative effects of these dominant species attract more pollinators for other species. Furthermore, the complementarity effect increased with decreasing niche overlap of pollinator species, indicating complementary resource use among plant–pollinator interactions. Collectively, our findings highlight the importance of multitrophic interactions in maintaining multitrophic ecosystem functions.
Niche complementarity (i.e., complementarity effect) or differences in competitive ability (i.e., selection effect) are the two main mechanisms underlying the biodiversity and ecosystem functioning relationships within a single trophic level. However, few studies have explored such operating mechanisms across multitrophic levels and ecosystem functions, such as pollination. In this large grassland biodiversity study in Inner Mongolia, we partitioned the net biodiversity effect on seed production into the complementarity and selection effects and related these effects to functional diversity and the composition of flowering plant traits, and a range of plant–pollinator network parameters. The positive effect of plant species richness on the complementarity effects overwhelmed the negative effect on the selection effects. Hence, plant diversity positively impacted the net biodiversity effects. In addition, the net biodiversity and complementarity effects were increased in plant communities dominated by species with long inflorescences, suggesting that the facilitative effects of these dominant species attract more pollinators for other species. Furthermore, the complementarity effect increased with decreasing niche overlap of pollinator species, indicating complementary resource use among plant–pollinator interactions. Collectively, our findings highlight the importance of multitrophic interactions in maintaining multitrophic ecosystem functions. •Positive complementarity effects and negative selection effects of seed production occurred with plant species richness.•Complementarity effect of seed production increases with complementary resource use among plant–pollinator interactions.•Complementarity effect of seed production increases with dominance of plant species with long inflorescence length.
ArticleNumber 105221
Author Uchida, Kei
Bai, Yongfei
Nishimura, Issei
Sasaki, Takehiro
Zhao, Xuezhen
Lu, Xiaoming
Tachibana, Taiki
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Biodiversity-ecosystem functioning
Multitrophic
Biodiversity effect
Pollination
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Snippet Niche complementarity (i.e., complementarity effect) or differences in competitive ability (i.e., selection effect) are the two main mechanisms underlying the...
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SubjectTerms Biodiversity effect
Biodiversity-ecosystem functioning
China
Complementarity effect
dominant species
ecosystems
functional diversity
grasslands
Multitrophic
Pollination
pollinators
species
species richness
trophic levels
Title Complementarity effects among plant–pollinator interactions can enhance community seed production in semi-arid natural grasslands
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