Prescribed fire increases plant–pollinator network robustness to losses of rare native forbs

Waters, Susan M.; Mitchell, Rachel M.; Brown, Emily R.; Taber, Ethan M.

doi:10.1002/eap.2928

Ecological Applications

2023

DOI: 10.1002/eap.2928

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Prescribed fire increases plant–pollinator network robustness to losses of rare native forbs

Susan M. Waters,

Rachel M. Mitchell,

Emily R. Brown

et al.

Abstract: Restoration efforts often focus on changing the composition and structure of invaded plant communities, with two implicit assumptions: 1) functional interactions with species of other trophic levels, such as pollinators, will reassemble automatically when native plant diversity is restored; and 2) restored communities will be more resilient to future stressors. However, the impact of restoration activities on pollinator richness, plant–pollinator interaction network structure, and network robustness is incompl… Show more

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Cited by 4 publications

References 69 publications

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Prescribed fire increases plant–pollinator network robustness to losses of rare native forbs

Waters,

Mitchell,

Brown

et al. 2023

Ecological Applications

Self Cite

View full text Add to dashboard Cite

Restoration efforts often focus on changing the composition and structure of invaded plant communities, with two implicit assumptions: 1) functional interactions with species of other trophic levels, such as pollinators, will reassemble automatically when native plant diversity is restored; and 2) restored communities will be more resilient to future stressors. However, the impact of restoration activities on pollinator richness, plant–pollinator interaction network structure, and network robustness is incompletely understood. Leveraging a restoration chronosequence in Pacific Northwest prairies, we examined the effects of restoration‐focused prescribed fire and native forb replanting on floral resources, pollinator visitation, and plant–pollinator network structure. We then simulated the effects of plant species loss/removal scenarios on secondary extinction cascades in the networks. Specifically, we explored three management‐relevant plant loss scenarios (removal of an abundant exotic forb, removal of an abundant forb designated a noxious weed, and loss of the rarest native forb) and compared them to control scenarios. Pyrodiversity and proportion of area recently burned increased the abundance and diversity of floral resources, with concomitant increases in pollinator visitation and diversity. Pyrodiversity also decreased network connectance and nestedness, increased modularity, and buffered networks against secondary extinction cascades. Rare forbs contributed disproportionately to network robustness in less restored prairies, while removal of typical “problem” plants like exotic and noxious species had relatively small impacts on network robustness, particularly in prairies with a long history of restoration activities. Restoration actions aimed mainly at improving the diversity and abundance of pollinator‐provisioning plants may also produce plant–pollinator networks with increased resilience to plant species losses.This article is protected by copyright. All rights reserved.

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Prescribed fire increases plant–pollinator network robustness to losses of rare native forbs

Waters,

Mitchell,

Brown

et al. 2023

Ecological Applications

Self Cite

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show abstract

Improving effectiveness of environmental enrichment: The role of light intensity in rock bream (Oplegnathus fasciatus) rearing

Li,

He,

Zhou

et al. 2024

Applied Animal Behaviour Science

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Like a moth to a flame: the effect of megafires on pollinators and pollination systems

Latty,

Forster

2025

Current Opinion in Insect Science

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Prescribed fire increases plant–pollinator network robustness to losses of rare native forbs

Cited by 4 publications

References 69 publications

Prescribed fire increases plant–pollinator network robustness to losses of rare native forbs

Prescribed fire increases plant–pollinator network robustness to losses of rare native forbs

Improving effectiveness of environmental enrichment: The role of light intensity in rock bream (Oplegnathus fasciatus) rearing

Like a moth to a flame: the effect of megafires on pollinators and pollination systems

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