Beta diversity and specialization in plant–pollinator networks along an elevational gradient

Aim To assess whether the reduced nutritional resources available for pollinators due to plant community simplification along an elevational plant‐diversity gradient changes pollinator niche breadth and richness. Additionally, we evaluated how body size and proboscis length of pollinators shifted al...

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Published inJournal of biogeography Vol. 46; no. 7; pp. 1598 - 1610
Main Authors Lara-Romero, Carlos, Seguí, Jaume, Pérez-Delgado, Antonio, Nogales, Manuel, Traveset, Anna
Format Journal Article
LanguageEnglish
Published Oxford Wiley 01.07.2019
Wiley Subscription Services, Inc
Subjects
altitude
Angiospermae
Biodiversity
Body size
Canary Islands
climate change
Ecological effects
Elevation
Environmental gradient
filters
Flowering
Flowering plants
flowers
functional diversity
heat tolerance
Modularity
Networks
Niche breadth
Niche overlap
Niches
Plant communities
Plant species
pollination networks
Pollinators
Population decline
Proboscis
RESEARCH PAPER
Specialization
species diversity
Species richness
Temperature tolerance
Thermal stress
topology
Volcanoes
Canary Islands
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Abstract Aim To assess whether the reduced nutritional resources available for pollinators due to plant community simplification along an elevational plant‐diversity gradient changes pollinator niche breadth and richness. Additionally, we evaluated how body size and proboscis length of pollinators shifted along the gradient, and whether these changes were related to pollinator niche breadth. Location An elevational gradient (2,350–3,520 m a.s.l.) on the oceanic high‐mountain strato‐volcano of El Teide (Tenerife, Canary Islands). Taxon Flowering plant and pollinator species. Methods We compared quantitative plant–pollinator networks along the plant‐diversity gradient. We calculated a set of niche‐based topological metrics that capture the degree of specialization, niche breadth and niche overlap. Furthermore, we obtained β‐diversity measures and the proportion of replacement and richness components. Results There was an overall decline in species richness of pollinators with increasing elevation. This decline was mainly driven by the loss of species along the elevational gradient, which conformed a nested subset pattern. The whole network showed less specialization, greater connectance and lower modularity towards the summit. At high elevations, pollinators were more generalized and less selective in their flower choice, showing a greater trophic niche breadth compared to pollinators at lower elevations. Mean body size of pollinators increased with elevation, and species body size and proboscis length were positively associated with the number of plant species visited. Main conclusions Overall, results indicated that the elevational gradient filters pollinator species, probably according to their thermal tolerance and ability to exploit a wide range of trophic resources. The finding that pollinators become more generalized and opportunistic at higher elevations is a novel result, which may have implications for new research into how ecological networks vary over environmental gradients. From an applied perspective, our results highlight the importance of considering the spatial variation of species assemblages when aiming to construct functionally reliable interaction networks along environmental gradients.
AbstractList AIM: To assess whether the reduced nutritional resources available for pollinators due to plant community simplification along an elevational plant‐diversity gradient changes pollinator niche breadth and richness. Additionally, we evaluated how body size and proboscis length of pollinators shifted along the gradient, and whether these changes were related to pollinator niche breadth. LOCATION: An elevational gradient (2,350–3,520 m a.s.l.) on the oceanic high‐mountain strato‐volcano of El Teide (Tenerife, Canary Islands). TAXON: Flowering plant and pollinator species. METHODS: We compared quantitative plant–pollinator networks along the plant‐diversity gradient. We calculated a set of niche‐based topological metrics that capture the degree of specialization, niche breadth and niche overlap. Furthermore, we obtained β‐diversity measures and the proportion of replacement and richness components. RESULTS: There was an overall decline in species richness of pollinators with increasing elevation. This decline was mainly driven by the loss of species along the elevational gradient, which conformed a nested subset pattern. The whole network showed less specialization, greater connectance and lower modularity towards the summit. At high elevations, pollinators were more generalized and less selective in their flower choice, showing a greater trophic niche breadth compared to pollinators at lower elevations. Mean body size of pollinators increased with elevation, and species body size and proboscis length were positively associated with the number of plant species visited. MAIN CONCLUSIONS: Overall, results indicated that the elevational gradient filters pollinator species, probably according to their thermal tolerance and ability to exploit a wide range of trophic resources. The finding that pollinators become more generalized and opportunistic at higher elevations is a novel result, which may have implications for new research into how ecological networks vary over environmental gradients. From an applied perspective, our results highlight the importance of considering the spatial variation of species assemblages when aiming to construct functionally reliable interaction networks along environmental gradients.
AimTo assess whether the reduced nutritional resources available for pollinators due to plant community simplification along an elevational plant‐diversity gradient changes pollinator niche breadth and richness. Additionally, we evaluated how body size and proboscis length of pollinators shifted along the gradient, and whether these changes were related to pollinator niche breadth.LocationAn elevational gradient (2,350–3,520 m a.s.l.) on the oceanic high‐mountain strato‐volcano of El Teide (Tenerife, Canary Islands).TaxonFlowering plant and pollinator species.MethodsWe compared quantitative plant–pollinator networks along the plant‐diversity gradient. We calculated a set of niche‐based topological metrics that capture the degree of specialization, niche breadth and niche overlap. Furthermore, we obtained β‐diversity measures and the proportion of replacement and richness components.ResultsThere was an overall decline in species richness of pollinators with increasing elevation. This decline was mainly driven by the loss of species along the elevational gradient, which conformed a nested subset pattern. The whole network showed less specialization, greater connectance and lower modularity towards the summit. At high elevations, pollinators were more generalized and less selective in their flower choice, showing a greater trophic niche breadth compared to pollinators at lower elevations. Mean body size of pollinators increased with elevation, and species body size and proboscis length were positively associated with the number of plant species visited.Main conclusionsOverall, results indicated that the elevational gradient filters pollinator species, probably according to their thermal tolerance and ability to exploit a wide range of trophic resources. The finding that pollinators become more generalized and opportunistic at higher elevations is a novel result, which may have implications for new research into how ecological networks vary over environmental gradients. From an applied perspective, our results highlight the importance of considering the spatial variation of species assemblages when aiming to construct functionally reliable interaction networks along environmental gradients.
Aim To assess whether the reduced nutritional resources available for pollinators due to plant community simplification along an elevational plant‐diversity gradient changes pollinator niche breadth and richness. Additionally, we evaluated how body size and proboscis length of pollinators shifted along the gradient, and whether these changes were related to pollinator niche breadth. Location An elevational gradient (2,350–3,520 m a.s.l.) on the oceanic high‐mountain strato‐volcano of El Teide (Tenerife, Canary Islands). Taxon Flowering plant and pollinator species. Methods We compared quantitative plant–pollinator networks along the plant‐diversity gradient. We calculated a set of niche‐based topological metrics that capture the degree of specialization, niche breadth and niche overlap. Furthermore, we obtained β‐diversity measures and the proportion of replacement and richness components. Results There was an overall decline in species richness of pollinators with increasing elevation. This decline was mainly driven by the loss of species along the elevational gradient, which conformed a nested subset pattern. The whole network showed less specialization, greater connectance and lower modularity towards the summit. At high elevations, pollinators were more generalized and less selective in their flower choice, showing a greater trophic niche breadth compared to pollinators at lower elevations. Mean body size of pollinators increased with elevation, and species body size and proboscis length were positively associated with the number of plant species visited. Main conclusions Overall, results indicated that the elevational gradient filters pollinator species, probably according to their thermal tolerance and ability to exploit a wide range of trophic resources. The finding that pollinators become more generalized and opportunistic at higher elevations is a novel result, which may have implications for new research into how ecological networks vary over environmental gradients. From an applied perspective, our results highlight the importance of considering the spatial variation of species assemblages when aiming to construct functionally reliable interaction networks along environmental gradients.
Author Pérez-Delgado, Antonio
Nogales, Manuel
Traveset, Anna
Lara-Romero, Carlos
Seguí, Jaume
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Notes Lara‐Romero, Segí, Pérez‐Delgado, Nogales, & Traveset
Data Availability Statement
https://doi.org/10.5061/dryad.b23v8nn
Plant–pollinator interaction data are deposited in the Dryad Digital Repository
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Snippet Aim To assess whether the reduced nutritional resources available for pollinators due to plant community simplification along an elevational plant‐diversity...
AimTo assess whether the reduced nutritional resources available for pollinators due to plant community simplification along an elevational plant‐diversity...
AIM: To assess whether the reduced nutritional resources available for pollinators due to plant community simplification along an elevational plant‐diversity...
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SubjectTerms altitude
Angiospermae
Biodiversity
Body size
Canary Islands
climate change
Ecological effects
Elevation
Environmental gradient
filters
Flowering
Flowering plants
flowers
functional diversity
heat tolerance
Modularity
Networks
Niche breadth
Niche overlap
Niches
Plant communities
Plant species
pollination networks
Pollinators
Population decline
Proboscis
RESEARCH PAPER
Specialization
species diversity
Species richness
Temperature tolerance
Thermal stress
topology
Volcanoes
Title Beta diversity and specialization in plant–pollinator networks along an elevational gradient
URI https://www.jstor.org/stable/26786755
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjbi.13615
https://www.proquest.com/docview/2248103359
https://www.proquest.com/docview/2305148407
Volume 46
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