Northern Russian chironomid-based modern summer temperature data set and inference models

© 2014 Elsevier B.V. West and East Siberian data sets and 55 new sites were merged based on the high taxonomic similarity, and the strong relationship between mean July air temperature and the distribution of chironomid taxa in both data sets compared with other environmental parameters. Multivariat...

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Bibliographic Details
Main Authors: Nazarova L., Self A., Brooks S., van Hardenbroek M., Herzschuh U., Diekmann B.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2014
Subjects:
Arctic Russia
Biogeography
Chironomidae
Ecology
Temperature
Transfer function
Arctic
Kamchatka
Online Access:https://openrepository.ru/article?id=176479
id ftneicon:oai:rour.neicon.ru:rour/176479
record_format openpolar
spelling ftneicon:oai:rour.neicon.ru:rour/176479 2023-05-15T15:06:38+02:00 Northern Russian chironomid-based modern summer temperature data set and inference models Nazarova L. Self A. Brooks S. van Hardenbroek M. Herzschuh U. Diekmann B. 2014 https://openrepository.ru/article?id=176479 unknown Global and Planetary Change 134 10 http://rour.neicon.ru:80/xmlui/bitstream/rour/176479/1/nora.pdf 0921-8181 https://openrepository.ru/article?id=176479 SCOPUS09218181-2014-134-SID84947028083 Arctic Russia Biogeography Chironomidae Ecology Temperature Transfer function Article 2014 ftneicon 2020-07-21T11:59:52Z © 2014 Elsevier B.V. West and East Siberian data sets and 55 new sites were merged based on the high taxonomic similarity, and the strong relationship between mean July air temperature and the distribution of chironomid taxa in both data sets compared with other environmental parameters. Multivariate statistical analysis of chironomid and environmental data from the combined data set consisting of 268 lakes, located in northern Russia, suggests that mean July air temperature explains the greatest amount of variance in chironomid distribution compared with other measured variables (latitude, longitude, altitude, water depth, lake surface area, pH, conductivity, mean January air temperature, mean July air temperature, and continentality). We established two robust inference models to reconstruct mean summer air temperatures from subfossil chironomids based on ecological and geographical approaches. The North Russian 2-component WA-PLS model (RMSEPJack=1.35°C, rJack 2=0.87) can be recommended for application in palaeoclimatic studies in northern Russia. Based on distinctive chironomid fauna and climatic regimes of Kamchatka the Far East 2-component WAPLS model (RMSEPJack=1.3°C, rJack 2=0.81) has potentially better applicability in Kamchatka. Article in Journal/Newspaper Arctic Kamchatka NORA (National aggregator of open repositories of Russian universities) Arctic
institution Open Polar
collection NORA (National aggregator of open repositories of Russian universities)
op_collection_id ftneicon
language unknown
topic Arctic Russia
Biogeography
Chironomidae
Ecology
Temperature
Transfer function
spellingShingle Arctic Russia
Biogeography
Chironomidae
Ecology
Temperature
Transfer function
Nazarova L.
Self A.
Brooks S.
van Hardenbroek M.
Herzschuh U.
Diekmann B.
Northern Russian chironomid-based modern summer temperature data set and inference models
topic_facet Arctic Russia
Biogeography
Chironomidae
Ecology
Temperature
Transfer function
description © 2014 Elsevier B.V. West and East Siberian data sets and 55 new sites were merged based on the high taxonomic similarity, and the strong relationship between mean July air temperature and the distribution of chironomid taxa in both data sets compared with other environmental parameters. Multivariate statistical analysis of chironomid and environmental data from the combined data set consisting of 268 lakes, located in northern Russia, suggests that mean July air temperature explains the greatest amount of variance in chironomid distribution compared with other measured variables (latitude, longitude, altitude, water depth, lake surface area, pH, conductivity, mean January air temperature, mean July air temperature, and continentality). We established two robust inference models to reconstruct mean summer air temperatures from subfossil chironomids based on ecological and geographical approaches. The North Russian 2-component WA-PLS model (RMSEPJack=1.35°C, rJack 2=0.87) can be recommended for application in palaeoclimatic studies in northern Russia. Based on distinctive chironomid fauna and climatic regimes of Kamchatka the Far East 2-component WAPLS model (RMSEPJack=1.3°C, rJack 2=0.81) has potentially better applicability in Kamchatka.
format Article in Journal/Newspaper
author Nazarova L.
Self A.
Brooks S.
van Hardenbroek M.
Herzschuh U.
Diekmann B.
author_facet Nazarova L.
Self A.
Brooks S.
van Hardenbroek M.
Herzschuh U.
Diekmann B.
author_sort Nazarova L.
title Northern Russian chironomid-based modern summer temperature data set and inference models
title_short Northern Russian chironomid-based modern summer temperature data set and inference models
title_full Northern Russian chironomid-based modern summer temperature data set and inference models
title_fullStr Northern Russian chironomid-based modern summer temperature data set and inference models
title_full_unstemmed Northern Russian chironomid-based modern summer temperature data set and inference models
title_sort northern russian chironomid-based modern summer temperature data set and inference models
publishDate 2014
url https://openrepository.ru/article?id=176479
geographic Arctic
geographic_facet Arctic
genre Arctic
Kamchatka
genre_facet Arctic
Kamchatka
op_source SCOPUS09218181-2014-134-SID84947028083
op_relation Global and Planetary Change
134
10
http://rour.neicon.ru:80/xmlui/bitstream/rour/176479/1/nora.pdf
0921-8181
https://openrepository.ru/article?id=176479
_version_ 1766338207944802304

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