Nonlinear trends in abundance and diversity and complex responses to climate change in Arctic arthropods

Høye, Toke T.; Loboda, Sarah; Koltz, Amanda M.; Gillespie, Mark A. K.; Bowden, Joseph J.; Schmidt, Niels Martin

doi:10.1073/pnas.2002557117

Cited by 42 publications

(54 citation statements)

References 72 publications

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“…In recent years, many studies have reported declines in insect richness [1][2][3][4][5][6][7]. Nevertheless, it is difficult to generalize trends since regional, taxa-and ecosystem-specific patterns exist [8][9][10][11][12][13]. Although terrestrial insects appear to be declining in many areas, aquatic insects have more frequently been reported to be increasing [14].…”

Section: Introductionmentioning

confidence: 99%

Recent trends in stream macroinvertebrates: warm-adapted and pesticide-tolerant taxa increase in richness

et al. 2022

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Recently, a plethora of studies reporting insect declines has been published. Even though the common theme is decreasing insect richness, positive trends have also been documented. Here, we analysed nationwide, systematic monitoring data on aquatic insect richness collected at 438 sites in Switzerland from 2010 to 2019. In addition to taxonomic richness, we grouped taxa in accordance with their ecological preferences and functional traits to gain a better understanding of trends and possible underlying mechanisms. We found that in general, richness of aquatic insects remained stable or increased with time. Warm-adapted taxa, common feeding guilds and pesticide-tolerant taxa showed increasing patterns while cold-adapted, rarer feeding guilds and pesticide-sensitive taxa displayed stable trends. Both climate and land-use-related factors were the most important explanatory variables for the patterns of aquatic insect richness. Although our data cover the last decade only, our results suggest that recent developments in insect richness are context-dependent and affect functional groups differently. However, longer investigations and a good understanding of the baseline are important to reveal if the increase in temperature- and pesticide-tolerant species will lead to a decrease in specialized species and a homogenization of biotic communities in the long term.

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Section: Introductionmentioning

confidence: 99%

Recent trends in stream macroinvertebrates: warm-adapted and pesticide-tolerant taxa increase in richness

et al. 2022

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“…While climate change has resulted in decreased abundance and diversity for many species (IPCC, 2014 ; Wagner et al, 2021 ), some insect species have increased their population sizes or range due to warmer temperatures. Thus, the damage by insect herbivores is growing, especially at higher elevations and latitudes (Høye et al, 2021 ; Jepsen et al, 2008 , 2011 ). For example, Barrio et al, ( 2017 ) found that 1.4% of leaf area of the circumpolar dwarf birch ( Betula glandulosa ‐ nana complex) is currently lost due to background insect herbivory, and that with a 1°C increase in summer temperatures, insect herbivory will likely increase by 6–7%.…”

Section: Introductionmentioning

confidence: 99%

Synergistic effects of insect herbivory and changing climate on plant volatile emissions in the subarctic tundra

Rieksta

Michelsen

et al. 2021

Global Change Biology

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Climate-change-induced alterations in temperature, snow, icecover, and nutrient availability are having extensive ecological consequences in Arctic ecosystems (Pascual et al., 2020;Post et al., 2009). Climate warming, which proceeds at twice the rate of the global average in the Arctic (IPCC, 2014), directly and indirectly affects the emissions of volatile organic compounds (VOCs) from vegetation. The direct effect of climate warming has been shown to substantially increase VOC emissions from Arctic ecosystems

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“…Phenological advancements in arthropod emergence have nevertheless been shown in some time series (Høye et al, 2007; Rakhimberdiev et al, 2018, but see Meltofte et al, 2021) and predicted from climatic dependencies (Shaftel et al, 2021; Tulp & Schekkerman, 2008). How such advancements impact food available for shorebird chicks will also depend on climate‐induced changes in arthropod community composition (Høye et al, 2021; Koltz et al, 2018), body size (Tseng et al, 2018) activity (Høye & Forchhammer, 2008), and variation in abundance outside of the peak (Machín et al, 2018; Saalfeld et al, 2019). Therefore, whether the occurrence of trophic mismatches is increasing for Arctic‐nesting shorebirds is currently unclear.…”

Section: Discussionmentioning

confidence: 99%

Mismatch‐induced growth reductions in a clade of Arctic‐breeding shorebirds are rarely mitigated by increasing temperatures

Lameris

Tomkovich

Johnson

et al. 2021

Global Change Biology

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In seasonal environments subject to climate change, organisms typically show phenological changes. As these changes are usually stronger in organisms at lower trophic levels than those at higher trophic levels, mismatches between consumers and their prey may occur during the consumers' reproduction period. While in some species a trophic mismatch induces reductions in offspring growth, this is not always the case. F I G U R E 2 Study locations for Red Knot ssp. islandica (yellow dots), canutus (orange dots), rogersi (purple dot) and roselaari (red dot), Great Knot (blue square) and Surfbird (green diamond) [Colour figure can be viewed at wileyonlinelibrary.com]

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Nonlinear trends in abundance and diversity and complex responses to climate change in Arctic arthropods

Cited by 42 publications

References 72 publications

Recent trends in stream macroinvertebrates: warm-adapted and pesticide-tolerant taxa increase in richness

Recent trends in stream macroinvertebrates: warm-adapted and pesticide-tolerant taxa increase in richness

Synergistic effects of insect herbivory and changing climate on plant volatile emissions in the subarctic tundra

Mismatch‐induced growth reductions in a clade of Arctic‐breeding shorebirds are rarely mitigated by increasing temperatures

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