Your search keyword '"non-biting midges"' showing total 3 results

1. Quaternary environmental and climatic reconstructions using subfossil insects from northern Norway

Author

Young, Aythya Lena, Newton, Anthony, Alsos, Inger Greve, Ross, Andrew, and Mackaness, William

Subjects

subfossil insects, Norway, northern Norway, past environmental conditions, past climatic conditions, future change, conservation, Arctic, current change, lake Øvre Æra°svatnet, Andøya, Vestera°len archipelago, non-biting midges, insects, Beetles

Abstract

Reconstructing past environmental and climatic conditions allows us to better understand the impact of change on the environment, along with the taxa that inhabit it. This can help with constraining our predictions for future change and focus conservation efforts. As contemporary change is being experienced at an unprecedented rate within the Arctic, investigating past change within this region is of utmost importance. Northern Norway is known to have experienced significant environmental change throughout the Quaternary, alternating between being covered in ice and being ice-free, multiple times. The traditional view that temperate taxa survived periods of glaciation further south, in refugia, is brought into question by the discovery that survival in crypto-refugia on ice-free islands, such as Andøya, was possible. Little work has been undertaken to analyse these Quaternary climatic and environmental changes within northern Norway, despite the effectiveness of insects, especially beetles and chironomids, in reconstructing past environmental and climatic conditions, having been well demonstrated. Thus, the overall aim of this thesis is to use subfossil insects to reconstruct the environment and climate of northern Norway throughout the Late Quaternary (last 24,000 years), whilst testing their robustness as proxies within the region. In doing so, this study provides the longest high-resolution chironomid study, the earliest, and most complete, Holocene reconstructions using beetles in northern Norway, as well as the first multi-proxy insect study in the region. Chironomids have been investigated between 24.0 and 8.2 cal ka BP from Øvre Æråsvatnet (Andøya), and quantitative July temperature reconstructions have been made. Beetles were recovered from Ramså (Andøya) from 11.0 to 8.2 cal ka BP and the Hollabåttjønnen Bog (Tønsnes) from 4.3 to 0.7 cal ka BP cal ka BP, and environmental and climatic reconstructions were made from both, based on their modern environmental and climatic preferences. These reconstructions tell a story of fluctuating climatic and environmental conditions throughout the Last Glacial Maximum contrary to previously reported reconstructions of persistent extreme cold. Instead, these results support the side of the debate that the LGM on Andøya was comparatively warm, with chironomid inferred mean July temperatures of 9°C prior to 20.0 cal ka BP. This was followed by a more variable Late Glacial (6.4 - 9.5°C) and a sustained increase in mean July temperatures to between 10 and 11°C during the early Holocene (11.7 - 8.1 cal ka BP), in agreement with other proxies. These reconstructed temperatures do not discount the possibility of other temperate taxa surviving on the island throughout the LGM. Holocene environmental reconstructions indicate that during the early Holocene (10.9 - 8.2 cal ka BP) Ramså was dominated by Sphagnum moss and aquatic species indicate standing water was nearby. These reconstructions confirm those reported from other proxies, but add further information, for example, that the presence of a wetland environment with standing water indicates that the northwest of Andøya probably experienced higher rainfall than the south. Furthermore, the beetles suggest that trees arrived on Andøya between 10.5 and 9.71 cal ka BP, which compliments and agrees with the evidence from other proxies. During the late Holocene at Tønsnes (4.3 - 0.7 cal ka BP) an oligotrophic bog existed, but this was less homogenous with species indicating drier heathland and small groves of trees present throughout. These reconstructions have demonstrated the effectiveness of using chironomids and beetles as palaeoecological proxies within northern Norway, as they support, and add detail to, reconstructions made from other proxies. Nonetheless, temperature reconstructions based on beetles are broad and lack the precision of those inferred from chironomids, likely a reflection of the mutual climatic range method working better in reconstructions from lower latitudes, where the number of stenothermic species recovered is significantly higher. Future studies in the region should concentrate on combining the beetle-inferred July temperatures with those inferred from chironomids, giving multiple lines of evidence, which is more likely to reflect the actual air temperature. This study emphasises the need for further methodological development in northern Norway, and likely across high latitudes, to enable beetle reconstructions to be used to their full potential. Moreover, the results demonstrate that the level of detail that can be gained about the environment from beetles cannot be gained from other proxies, including chironomids and, therefore, confirms that beetles should be an integral part of future palaeoenvironmental studies, alongside other proxies. These findings demonstrate that multi-proxy studies should remain a priority in Quaternary reconstructions, particularly at high latitudes. Furthermore, similarities in the beetle assemblages from the early and late Holocene emphasise the importance of peat bogs as an ecosystem within northern Norway, and therefore should be considered key sites for conservation.

Published

2023

2. A new molecular phylogeny for the Tanypodinae (Diptera: Chironomidae) places the Australian diversity in a global context

Author

Krosch, Matt N., Silva, Fabio L., Ekrem, Torbjørn, Baker, Andrew M., Bryant, Litticia M., Stur, Elisabeth, Cranston, Peter S., Krosch, Matt N., Silva, Fabio L., Ekrem, Torbjørn, Baker, Andrew M., Bryant, Litticia M., Stur, Elisabeth, and Cranston, Peter S.

Abstract

The non-biting midge subfamily Tanypodinae (Diptera: Chironomidae) is species-rich, ecologically diverse, and near-globally distributed. Within the subfamily, aspects of generic and species-level taxonomy remain poorly understood, in particular the validity of assignment of Australian and New Zealand taxa to genera erected for northern hemisphere (Holarctic) fauna. Here, we place the austral diversity within this global context by extensive geographical and taxonomic sampling in concert with a multilocus phylogenetic approach. We incorporated sequence data for mitochondrial COI, and nuclear 28S and CAD, and conducted Bayesian and maximum likelihood phylogenetic inferences and Bayesian divergence time estimation. The resolved phylogeny supported many associations of Australian taxa with their proposed Holarctic congeners, with the exception of Apsectrotanypus Fittkau, and validates several taxa as endemic. Three of four New Zealand sampled taxa had their sister groups in Australia; New Zealand Monopelopia Fittkau was sister to a German congener. This included the first record of Procladius Kieffer from New Zealand. Most nodes connecting austral and Holarctic taxa clustered around the Cretaceous-Tertiary boundary (60–80 mya), whereas New Zealand-Australia nodes were generally slightly younger (53–57 mya). Together, these data contribute substantially to our understanding of the taxonomy, systematics and biogeography of the Australian Tanypodinae and more broadly to knowledge of Australia's aquatic insect biodiversity.

Published

2022

3. Late Holocene ecological shifts and chironomid-inferred summer temperature changes reconstructed from Lake Uddelermeer, the Netherlands

Author

Gouw-Bouman, M. T.I.J., van Asch, N., Engels, Stefan, Hoek, W. Z., Gouw-Bouman, M. T.I.J., van Asch, N., Engels, Stefan, and Hoek, W. Z.

Abstract

This paper presents a late Holocene chironomid-inferred record of July air temperature from a core obtained from Lake Uddelermeer in the Netherlands. The core interval, which dates from 2500 to 400 cal. yr. BP, was analysed at multi-decadal resolution for organic content, pollen, spores and NPPs (Non Pollen Palynomorphs), and chironomid head capsules. These proxies indicate that, from 2500 to 1140 cal. yr. BP, the lake was mesotrophic and sustained a Littorellion community, while the chironomid assemblage was dominated by littoral species associated with macrophytes. At 1140 cal. yr. BP, a shift in the lake ecology occurred from low-nutrient to high-nutrient conditions dominated by algae. This shift might be linked to a concurrent increase in human impact and is reflected in the chironomid assemblage by increases in eurytopic taxa, which are resistant to disturbances. Shifts in the chironomid record between 2500 and 1140 cal. yr. BP do not coincide with changes in lake ecology and are presumably driven by climate change. Using a Norwegian-Swiss calibration dataset as a modern analogue, we produced a chironomid-inferred temperature (C-IT) reconstruction. This reconstruction compares well to other regional temperature reconstructions in timing and duration showing a Roman Warm Period between 2240 and 1760 cal. yr. BP, a Dark Age Cold Period starting at 1760 cal. yr. BP and the Medieval Climate Anomaly beginning at 1280 cal. yr. BP. The C-IT record indicates a temperature drop of 1.5 °C from the Roman Warm Period to the Dark Age Cold Period. Findings improve knowledge of the first millennium AD in NW Europe, which was characterised by changes in landscape, vegetation, society and climate.

Published

2019