Global Size Pattern in a Group of Important Ecological Indicators (Diptera, Chironomidae) Is Driven by Latitudinal Temperature Gradients

Baranov, Viktor; Jourdan, Jonas; Hunter-Moffatt, Blue; Noori, Sajad; Schölderle, Simon; Haug, Joachim T.

doi:10.3390/insects13010034

Cited by 13 publications

(10 citation statements)

References 42 publications

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“…According to Bergmann’s rule, the higher the temperature, the smaller the animal can be. This concept is usually applied to mammals, while for insects the mechanisms may differ, or there is no correlation 42 . At the same time, the authors suggested that the sizes of insects could expand with time simply due to random variation during the evolution of a group.…”

Section: Discussionmentioning

confidence: 99%

The oldest case of paedomorphosis in rove beetles and description of a new genus of Paederinae from Cretaceous amber (Coleoptera: Staphylinidae)

Tokareva

Koszela

Ferreira

et al. 2023

Sci Rep

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The ecology of extinct species from the Cretaceous is largely unknown. Morphological features of specimens preserved in amber can help to reveal habitats and evolutionary strategies that occurred in fossil lineages. An unusually small rove beetle (Staphylinidae) from the subfamily Paederinae with a Y-shaped suture on the head and modified tarsi and antennae is newly described here as Midinudon juvenis Tokareva & Żyła gen. et sp. nov. We hypothesise that such a combination of characters represents the earliest example of paedomorphosis in Staphylinidae and discuss other possible reasons that could explain the small size and morphological modifications of the new species. We provide the results of total-evidence phylogenetic analysis and discuss the relationships of Midinudon juvenis Tokareva & Żyła gen. et sp. nov. within Paederinae.

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Section: Discussionmentioning

confidence: 99%

The oldest case of paedomorphosis in rove beetles and description of a new genus of Paederinae from Cretaceous amber (Coleoptera: Staphylinidae)

Tokareva

Koszela

Ferreira

et al. 2023

Sci Rep

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“…In addition to potential indirect effects on discharge, temperature is important to freshwater invertebrate growth, development and, as a consequence, body size. At large geographial scales, higher temperatures tend to correlate with smaller insect body sizes (Baranov et al, 2022; Bhowmik & Schäfer, 2015), even though there are documented exceptions to this rule (Atkinson, 1995). Higher water temperatures also can influence voltinism and cause earlier emergence times at a smaller body size (Anderson et al, 2019), although this is not always the case (McCauley et al, 2015).…”

Section: Discussionmentioning

confidence: 99%

Long‐term comparison of invertebrate communities in a blackwater river reveals taxon‐specific biomass change

et al. 2023

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Around the world, researchers are reporting declines in insect fauna. Although uncommonly evaluated in high‐profile studies of insect declines, the community context of population trends can facilitate interpretation of the causes and consequences of such losses. Here, we aimed to explore the shifts in a well‐studied invertebrate community of a blackwater river and identify potential catalysts of such change. We compared the density, biomass and community structure of freshwater invertebrate assemblages separated by more than 30 years in the Ogeechee River, in the southeastern U.S.A., and found biomass declines. We also evaluated long‐term trends in river discharge, water temperature and precipitation. Overall, the biomass in the 2010s was approximately 60% of the total in the 1980s. Community analyses indicated that this decline was associated with reduced densities of large‐bodied, filter‐feeding insects, particularly Hydropsychidae caddisflies (Trichoptera). Conversely, predators and small‐bodied primary consumers increased in density, although their contributions to overall biomass were minimal and their increased density was not sufficient to compensate for biomass declines. Seasonal shifts in both invertebrate populations and environmental parameters were evident, especially when focusing on discharge and dissolved organic carbon. Through a combination of direct analysis and the use of established research on the metabolic dynamics of the study site, we determined that the overall decline of freshwater invertebrate biomass may have been driven by climate‐related changes in flood dynamics: seasonal flooding that facilitates delivery of floodplain carbon to filter‐feeding consumers had decreased over several decades. Water temperature also had increased and was likely to have had effects on the invertebrate assemblages. Whole‐community evaluations such as this one, in contrast to single‐taxon and abundance‐based studies, provide critical information to elucidate the dynamics of freshwater impairment and insect loss in the Anthropocene.

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“…Research related to conservation and environmental monitoring generates better insights when using taxonomic resolution at the genus or species levels (Lenat & Resh, 2001). Furthermore, for some groups such as Chironomidae, a more accurate taxonomic resolution is indicated for many applications in ecological research (Vasquez et al, 2022), to indicate phylogenetic structure (Baranov et al, 2021), and for the status Acta Limnologica Brasiliensia, 2022, vol. 34, e10…”

Section: Discussionmentioning

confidence: 99%

On the significance of wetlands: three decades of aquatic macroinvertebrate monitoring programs in a Neotropical floodplain

et al. 2022

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Aim Wetland areas have high environmental complexity and support high biodiversity. Therefore, global efforts are required to preserve these areas. Here, we show the results of three decades of monitoring programs regarding macroinvertebrate species from the upper Paraná River floodplain, which is an important wetland conservation area in the neotropics. Methods We searched the literature from 1990 to 2020 and selected studies that addressed questions related to benthic or macrophyte-associated macroinvertebrates in the study area. Results We retained 92 articles that matched the criteria. We noticed that the number of publications increased after 2009, and most studies were related to lentic environments. Sediment was the most studied substrate, showing the highest taxa record and diversity, followed by aquatic macrophytes. We found records of 517 taxa, from which the families Chironomidae, Cyprididae, and Naididae presented the highest taxonomic richness. The taxa richness observed in our study was lower than the bootstrap richness estimated. Conclusions The lack of signs of curve stabilisation through time for both observed and estimated taxa richness could indicate the macroinvertebrate richness from the upper Paraná River floodplain must be underestimated. In this way, once most of the studies reported results related to long-term ecological research, we argue for the continuity of such studies in floodplains as a powerful tool to assess biodiversity, which can provide useful data for the creation of conservation strategies that enhance the maintenance of biodiversity in such areas.

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Global Size Pattern in a Group of Important Ecological Indicators (Diptera, Chironomidae) Is Driven by Latitudinal Temperature Gradients

Cited by 13 publications

References 42 publications

The oldest case of paedomorphosis in rove beetles and description of a new genus of Paederinae from Cretaceous amber (Coleoptera: Staphylinidae)

The oldest case of paedomorphosis in rove beetles and description of a new genus of Paederinae from Cretaceous amber (Coleoptera: Staphylinidae)

Long‐term comparison of invertebrate communities in a blackwater river reveals taxon‐specific biomass change

On the significance of wetlands: three decades of aquatic macroinvertebrate monitoring programs in a Neotropical floodplain

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