Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants

Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants

The functioning of present ecosystems reflects deep evolutionary history of locally cooccurring species if their functional traits show high phylogenetic signal (PS). However, we do not understand what drives local PS. We hypothesize that local PS is high in undisturbed and stressful habitats, either due to ongoing local assembly of species that maintained ancestral traits, or to past evolutionary maintenance of ancestral traits within habitat species-pools, or to both. We quantified PS and diversity of 10 traits within 6704 local plant communities across 38 Dutch habitat types differing in disturbance or stress. Mean local PS varied 50-fold among habitat types, often independently of phylogenetic or trait diversity. Mean local PS decreased with disturbance but showed no consistent relationship to stress. Mean local PS exceeded species-pool PS, reflecting nonrandom subsampling from the pool. Disturbance or stress related more strongly to mean local than to species-pool PS. Disturbed habitats harbour species with evolutionary divergent trait values, probably driven by ongoing, local assembly of species: environmental fluctuations might maintain different trait values within lineages through an evolutionary storage effect. If functional traits do not reflect phylogeny, ecosystem functioning might not be contingent on the presence of particular lineages, and lineages might establish evolutionarily novel interactions.

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Main Authors: Prinzing, Andreas, Pavoine, Sandrine, Jactel, Hervé, Hortal, Joaquin, Hennekens, Stephan M., Ozinga, Wim A., Bartish, Igor V., Helmus, Matthew R., Kühn, Ingolf, Moen, Daniel S., Weiher, Evan, Brändle, Martin, Winter, Marten, Violle, Cyrille, Venail, Patrick, Purschke, Oliver, Yguel, Benjamin
Format: Article/Letter to editor biblioteca
Language:English
Subjects:community assembly, disturbance and stress, functional diversity, niche conservatism, phylogenetic diversity, phylogenetic signal, species-pool, trait evolution,
Online Access:https://research.wur.nl/en/publications/disturbed-habitats-locally-reduce-the-signal-of-deep-evolutionary
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spelling dig-wur-nl-wurpubs-5878662025-01-14 Prinzing, Andreas Pavoine, Sandrine Jactel, Hervé Hortal, Joaquin Hennekens, Stephan M. Ozinga, Wim A. Bartish, Igor V. Helmus, Matthew R. Kühn, Ingolf Moen, Daniel S. Weiher, Evan Brändle, Martin Winter, Marten Violle, Cyrille Venail, Patrick Purschke, Oliver Yguel, Benjamin Article/Letter to editor New Phytologist 232 (2021) 4 ISSN: 0028-646X Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants 2021 The functioning of present ecosystems reflects deep evolutionary history of locally cooccurring species if their functional traits show high phylogenetic signal (PS). However, we do not understand what drives local PS. We hypothesize that local PS is high in undisturbed and stressful habitats, either due to ongoing local assembly of species that maintained ancestral traits, or to past evolutionary maintenance of ancestral traits within habitat species-pools, or to both. We quantified PS and diversity of 10 traits within 6704 local plant communities across 38 Dutch habitat types differing in disturbance or stress. Mean local PS varied 50-fold among habitat types, often independently of phylogenetic or trait diversity. Mean local PS decreased with disturbance but showed no consistent relationship to stress. Mean local PS exceeded species-pool PS, reflecting nonrandom subsampling from the pool. Disturbance or stress related more strongly to mean local than to species-pool PS. Disturbed habitats harbour species with evolutionary divergent trait values, probably driven by ongoing, local assembly of species: environmental fluctuations might maintain different trait values within lineages through an evolutionary storage effect. If functional traits do not reflect phylogeny, ecosystem functioning might not be contingent on the presence of particular lineages, and lineages might establish evolutionarily novel interactions. en application/pdf https://research.wur.nl/en/publications/disturbed-habitats-locally-reduce-the-signal-of-deep-evolutionary 10.1111/nph.17705 https://edepot.wur.nl/555112 community assembly disturbance and stress functional diversity niche conservatism phylogenetic diversity phylogenetic signal species-pool trait evolution https://creativecommons.org/licenses/by-nc/4.0/ https://creativecommons.org/licenses/by-nc/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic community assembly
disturbance and stress
functional diversity
niche conservatism
phylogenetic diversity
phylogenetic signal
species-pool
trait evolution
community assembly
disturbance and stress
functional diversity
niche conservatism
phylogenetic diversity
phylogenetic signal
species-pool
trait evolution
spellingShingle community assembly
disturbance and stress
functional diversity
niche conservatism
phylogenetic diversity
phylogenetic signal
species-pool
trait evolution
community assembly
disturbance and stress
functional diversity
niche conservatism
phylogenetic diversity
phylogenetic signal
species-pool
trait evolution
Prinzing, Andreas
Pavoine, Sandrine
Jactel, Hervé
Hortal, Joaquin
Hennekens, Stephan M.
Ozinga, Wim A.
Bartish, Igor V.
Helmus, Matthew R.
Kühn, Ingolf
Moen, Daniel S.
Weiher, Evan
Brändle, Martin
Winter, Marten
Violle, Cyrille
Venail, Patrick
Purschke, Oliver
Yguel, Benjamin
Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants
description The functioning of present ecosystems reflects deep evolutionary history of locally cooccurring species if their functional traits show high phylogenetic signal (PS). However, we do not understand what drives local PS. We hypothesize that local PS is high in undisturbed and stressful habitats, either due to ongoing local assembly of species that maintained ancestral traits, or to past evolutionary maintenance of ancestral traits within habitat species-pools, or to both. We quantified PS and diversity of 10 traits within 6704 local plant communities across 38 Dutch habitat types differing in disturbance or stress. Mean local PS varied 50-fold among habitat types, often independently of phylogenetic or trait diversity. Mean local PS decreased with disturbance but showed no consistent relationship to stress. Mean local PS exceeded species-pool PS, reflecting nonrandom subsampling from the pool. Disturbance or stress related more strongly to mean local than to species-pool PS. Disturbed habitats harbour species with evolutionary divergent trait values, probably driven by ongoing, local assembly of species: environmental fluctuations might maintain different trait values within lineages through an evolutionary storage effect. If functional traits do not reflect phylogeny, ecosystem functioning might not be contingent on the presence of particular lineages, and lineages might establish evolutionarily novel interactions.
format Article/Letter to editor
topic_facet community assembly
disturbance and stress
functional diversity
niche conservatism
phylogenetic diversity
phylogenetic signal
species-pool
trait evolution
author Prinzing, Andreas
Pavoine, Sandrine
Jactel, Hervé
Hortal, Joaquin
Hennekens, Stephan M.
Ozinga, Wim A.
Bartish, Igor V.
Helmus, Matthew R.
Kühn, Ingolf
Moen, Daniel S.
Weiher, Evan
Brändle, Martin
Winter, Marten
Violle, Cyrille
Venail, Patrick
Purschke, Oliver
Yguel, Benjamin
author_facet Prinzing, Andreas
Pavoine, Sandrine
Jactel, Hervé
Hortal, Joaquin
Hennekens, Stephan M.
Ozinga, Wim A.
Bartish, Igor V.
Helmus, Matthew R.
Kühn, Ingolf
Moen, Daniel S.
Weiher, Evan
Brändle, Martin
Winter, Marten
Violle, Cyrille
Venail, Patrick
Purschke, Oliver
Yguel, Benjamin
author_sort Prinzing, Andreas
title Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants
title_short Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants
title_full Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants
title_fullStr Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants
title_full_unstemmed Disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants
title_sort disturbed habitats locally reduce the signal of deep evolutionary history in functional traits of plants
url https://research.wur.nl/en/publications/disturbed-habitats-locally-reduce-the-signal-of-deep-evolutionary
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