Cargando…

A Chironomid Record of Early-Middle Holocene Environmental Evolution in the Darhad Basin, Northern Mongolia

SIMPLE SUMMARY: The Holocene humidity evolution presents spatial heterogeneity in the Mongolian Plateau where multiple circulation systems converged. Inconsistent records of regional environmental evolution affect accurate assessment of lake ecosystems. Chironomid larvae are one of the most abundant...

Descripción completa

Detalles Bibliográficos
Autores principales: Ni, Zhenyu, Zhang, Enlou, Yi, Sangheon, Sun, Weiwei, Meng, Xianqiang, Ning, Dongliang, Kim, Jin Cheul
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9144342/
https://www.ncbi.nlm.nih.gov/pubmed/35621796
http://dx.doi.org/10.3390/insects13050461
_version_ 1784716025078480896
author Ni, Zhenyu
Zhang, Enlou
Yi, Sangheon
Sun, Weiwei
Meng, Xianqiang
Ning, Dongliang
Kim, Jin Cheul
author_facet Ni, Zhenyu
Zhang, Enlou
Yi, Sangheon
Sun, Weiwei
Meng, Xianqiang
Ning, Dongliang
Kim, Jin Cheul
author_sort Ni, Zhenyu
collection PubMed
description SIMPLE SUMMARY: The Holocene humidity evolution presents spatial heterogeneity in the Mongolian Plateau where multiple circulation systems converged. Inconsistent records of regional environmental evolution affect accurate assessment of lake ecosystems. Chironomid larvae are one of the most abundant benthic invertebrates in lakes. The taxa composition of their functional groups is largely determined by aquatic habitats. Therefore, analyzing the changes of their functional traits can effectively indicate the hydrological dynamics in the past. In this study, we analyzed the early-middle Holocene (9.0–4.5 cal kyr BP) subfossil chironomid assemblages of a sedimentary sequence from the Darhad Basin in northern Mongolia. At 9.0 cal kyr BP, the community structure suddenly changed from littoral taxa to sublittoral/profundal taxa, reflecting an environmental transition from a river or shallow lake condition to a deep lake environment, which lasted until 4.5 cal kyr BP. Those hydrological patterns are consistent with the humidity evolution in the Westerlies dominated region, except that the onset of wetness occurred one thousand years earlier when comparing our results with previous ones, which may be related to the melting of regional glaciers and permafrost caused by increased summer solar insolation. ABSTRACT: Under the influence of various circulation systems, the Holocene humidity conditions on the Mongolian Plateau are spatially heterogeneous and the underlying mechanism is still ambiguous. The complexity of climate change may affect the accuracy of assessing lake ecosystem evolution. In this study, based on the precise chronology, a chironomid assemblage sequence from the Darhad Basin in northern Mongolia is analyzed to elucidate the hydroclimate variation during the early-middle Holocene. The results show that the chironomid communities changed suddenly from littoral taxa to sublittoral/profundal taxa at about 9 cal kyr BP, reflecting an environmental transition from a river or shallow lake condition to a deep lake environment. Thereafter, most parts of the paleolake remained at a relatively high level until 4.5 cal kyr BP. This hydrological pattern resembles the typical humidity variations in the Westerlies affected regions, except that the onset of wetter conditions occurred one thousand years earlier as reflected in our results. The melting of glaciers and permafrost in the basin resulting from the early increased summer solar insolation could be a feasible explanation for these time advances.
format Online
Article
Text
id pubmed-9144342
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-91443422022-05-29 A Chironomid Record of Early-Middle Holocene Environmental Evolution in the Darhad Basin, Northern Mongolia Ni, Zhenyu Zhang, Enlou Yi, Sangheon Sun, Weiwei Meng, Xianqiang Ning, Dongliang Kim, Jin Cheul Insects Article SIMPLE SUMMARY: The Holocene humidity evolution presents spatial heterogeneity in the Mongolian Plateau where multiple circulation systems converged. Inconsistent records of regional environmental evolution affect accurate assessment of lake ecosystems. Chironomid larvae are one of the most abundant benthic invertebrates in lakes. The taxa composition of their functional groups is largely determined by aquatic habitats. Therefore, analyzing the changes of their functional traits can effectively indicate the hydrological dynamics in the past. In this study, we analyzed the early-middle Holocene (9.0–4.5 cal kyr BP) subfossil chironomid assemblages of a sedimentary sequence from the Darhad Basin in northern Mongolia. At 9.0 cal kyr BP, the community structure suddenly changed from littoral taxa to sublittoral/profundal taxa, reflecting an environmental transition from a river or shallow lake condition to a deep lake environment, which lasted until 4.5 cal kyr BP. Those hydrological patterns are consistent with the humidity evolution in the Westerlies dominated region, except that the onset of wetness occurred one thousand years earlier when comparing our results with previous ones, which may be related to the melting of regional glaciers and permafrost caused by increased summer solar insolation. ABSTRACT: Under the influence of various circulation systems, the Holocene humidity conditions on the Mongolian Plateau are spatially heterogeneous and the underlying mechanism is still ambiguous. The complexity of climate change may affect the accuracy of assessing lake ecosystem evolution. In this study, based on the precise chronology, a chironomid assemblage sequence from the Darhad Basin in northern Mongolia is analyzed to elucidate the hydroclimate variation during the early-middle Holocene. The results show that the chironomid communities changed suddenly from littoral taxa to sublittoral/profundal taxa at about 9 cal kyr BP, reflecting an environmental transition from a river or shallow lake condition to a deep lake environment. Thereafter, most parts of the paleolake remained at a relatively high level until 4.5 cal kyr BP. This hydrological pattern resembles the typical humidity variations in the Westerlies affected regions, except that the onset of wetter conditions occurred one thousand years earlier as reflected in our results. The melting of glaciers and permafrost in the basin resulting from the early increased summer solar insolation could be a feasible explanation for these time advances. MDPI 2022-05-13 /pmc/articles/PMC9144342/ /pubmed/35621796 http://dx.doi.org/10.3390/insects13050461 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ni, Zhenyu
Zhang, Enlou
Yi, Sangheon
Sun, Weiwei
Meng, Xianqiang
Ning, Dongliang
Kim, Jin Cheul
A Chironomid Record of Early-Middle Holocene Environmental Evolution in the Darhad Basin, Northern Mongolia
title A Chironomid Record of Early-Middle Holocene Environmental Evolution in the Darhad Basin, Northern Mongolia
title_full A Chironomid Record of Early-Middle Holocene Environmental Evolution in the Darhad Basin, Northern Mongolia
title_fullStr A Chironomid Record of Early-Middle Holocene Environmental Evolution in the Darhad Basin, Northern Mongolia
title_full_unstemmed A Chironomid Record of Early-Middle Holocene Environmental Evolution in the Darhad Basin, Northern Mongolia
title_short A Chironomid Record of Early-Middle Holocene Environmental Evolution in the Darhad Basin, Northern Mongolia
title_sort chironomid record of early-middle holocene environmental evolution in the darhad basin, northern mongolia
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9144342/
https://www.ncbi.nlm.nih.gov/pubmed/35621796
http://dx.doi.org/10.3390/insects13050461
work_keys_str_mv AT nizhenyu achironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT zhangenlou achironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT yisangheon achironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT sunweiwei achironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT mengxianqiang achironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT ningdongliang achironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT kimjincheul achironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT nizhenyu chironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT zhangenlou chironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT yisangheon chironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT sunweiwei chironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT mengxianqiang chironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT ningdongliang chironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia
AT kimjincheul chironomidrecordofearlymiddleholoceneenvironmentalevolutioninthedarhadbasinnorthernmongolia