Increasing shrub damage by invertebrate herbivores in the warming and drying tundra of West Greenland

Rapid warming is predicted to increase insect herbivory across the tundra biome, yet how this will impact the community and ecosystem dynamics remains poorly understood. Increasing background invertebrate herbivory could impede Arctic greening, by serving as a top–down control on tundra vegetation....

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Veröffentlicht in:	Oecologia 2021-04, Vol.195 (4), p.995-1005
Hauptverfasser:	Finger-Higgens, Rebecca, DeSiervo, Melissa, Ayres, Matthew P., Virginia, Ross A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Arctic Regions Biomass Biomedical and Life Sciences Biomes Damage Drying Ecology Ecosystem Ecosystem dynamics Ecosystems Greenland Growing season Herbivores Herbivory Hydrology/Water Resources Insects Invertebrates Leaves Life Sciences Pest outbreaks Plant control Plant Sciences PLANT-MICROBE-ANIMAL INTERACTIONS – ORIGINAL RESEARCH Shrubs Taiga & tundra Tundra Tundra ecology Tundras Vegetation Vegetation effects
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creator	Finger-Higgens, Rebecca DeSiervo, Melissa Ayres, Matthew P. Virginia, Ross A.
description	Rapid warming is predicted to increase insect herbivory across the tundra biome, yet how this will impact the community and ecosystem dynamics remains poorly understood. Increasing background invertebrate herbivory could impede Arctic greening, by serving as a top–down control on tundra vegetation. Many tundra ecosystems are also susceptible to severe insect herbivory outbreaks which can have lasting effects on vegetation communities. To explore how tundra-insect herbivore systems respond to warming, we measured shrub traits and foliar herbivory damage at 16 sites along a landscape gradient in western Greenland. Here we show that shrub foliar insect herbivory damage on two dominant deciduous shrubs, Salix glauca and Betula nana, was positively correlated with increasing temperatures throughout the first half of the 2017 growing season. We found that the majority of insect herbivory damage occurred in July, which was outside the period of rapid leaf expansion that occurred throughout most of June. Defoliators caused the most foliar damage in both shrub species. Additionally, insect herbivores removed a larger proportion of B. nana leaf biomass in warmer sites, which is due to a combination of increased foliar herbivory with a coinciding decline in foliar biomass. These results suggest that the effects of rising temperatures on both insect herbivores and host species are important to consider when predicting the trajectory of Arctic tundra shrub expansion.
doi_str_mv	10.1007/s00442-021-04899-7
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Additionally, insect herbivores removed a larger proportion of B. nana leaf biomass in warmer sites, which is due to a combination of increased foliar herbivory with a coinciding decline in foliar biomass. 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Increasing background invertebrate herbivory could impede Arctic greening, by serving as a top–down control on tundra vegetation. Many tundra ecosystems are also susceptible to severe insect herbivory outbreaks which can have lasting effects on vegetation communities. To explore how tundra-insect herbivore systems respond to warming, we measured shrub traits and foliar herbivory damage at 16 sites along a landscape gradient in western Greenland. Here we show that shrub foliar insect herbivory damage on two dominant deciduous shrubs, Salix glauca and Betula nana, was positively correlated with increasing temperatures throughout the first half of the 2017 growing season. We found that the majority of insect herbivory damage occurred in July, which was outside the period of rapid leaf expansion that occurred throughout most of June. Defoliators caused the most foliar damage in both shrub species. Additionally, insect herbivores removed a larger proportion of B. nana leaf biomass in warmer sites, which is due to a combination of increased foliar herbivory with a coinciding decline in foliar biomass. These results suggest that the effects of rising temperatures on both insect herbivores and host species are important to consider when predicting the trajectory of Arctic tundra shrub expansion.</description><subject>Animals</subject><subject>Arctic Regions</subject><subject>Biomass</subject><subject>Biomedical and Life Sciences</subject><subject>Biomes</subject><subject>Damage</subject><subject>Drying</subject><subject>Ecology</subject><subject>Ecosystem</subject><subject>Ecosystem dynamics</subject><subject>Ecosystems</subject><subject>Greenland</subject><subject>Growing season</subject><subject>Herbivores</subject><subject>Herbivory</subject><subject>Hydrology/Water Resources</subject><subject>Insects</subject><subject>Invertebrates</subject><subject>Leaves</subject><subject>Life Sciences</subject><subject>Pest outbreaks</subject><subject>Plant control</subject><subject>Plant Sciences</subject><subject>PLANT-MICROBE-ANIMAL INTERACTIONS – ORIGINAL 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subjects	Animals Arctic Regions Biomass Biomedical and Life Sciences Biomes Damage Drying Ecology Ecosystem Ecosystem dynamics Ecosystems Greenland Growing season Herbivores Herbivory Hydrology/Water Resources Insects Invertebrates Leaves Life Sciences Pest outbreaks Plant control Plant Sciences PLANT-MICROBE-ANIMAL INTERACTIONS – ORIGINAL RESEARCH Shrubs Taiga & tundra Tundra Tundra ecology Tundras Vegetation Vegetation effects
title	Increasing shrub damage by invertebrate herbivores in the warming and drying tundra of West Greenland
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