Mosses as biomonitors of atmospheric heavy metal deposition: Spatial patterns and temporal trends in Europe

H. Harmens; D.A. Norris; E. Steinnes; E. Kubin; J. Piispanen; R. Alber; Y. Aleksiayenak; O. Blum; M. Coskun; M. Dam; L. De Temmerman; J.A. Fernandez; M. Frolova; M. Frontasyeva; L. Gonzalez- Miqueo; K. Grodzinska; Z. Jeran; S. Korzekwa; M. Krmar; K. Kvietkus; S. Leblond; S. Liiv; S.H. Magnusson; B. Mankovska; R. Pesch; A. Ruehling; J.M. Santamaria; W. Schroder; Z. Spiric; I. Suchara; L. Thoeni; V. Urumov; L.Yurukova; H.G. Zechmeiste

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Mosses as biomonitors of atmospheric heavy metal deposition: Spatial patterns and temporal trends in Europe

机译：苔藓作为大气中重金属沉积的生物监测者：欧洲的空间格局和时间趋势

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In recent decades, mosses have been used successfully as biomonitors of atmospheric deposition of heavy metals. Since 1990, the European moss survey has been repeated at five-yearly intervals. Although spatial patterns were metal-specific, in 2005 the lowest concentrations of metals in mosses were generally found in Scandinavia, the Baltic States and northern parts of the UK; the highest concentrations were generally found in Belgium and south-eastern Europe. The recent decline in emission and subsequent deposition of heavy metals across Europe has resulted in a decrease in the heavy metal concentration in mosses for the majority of metals. Since 1990, the concentration in mosses has declined the most for arsenic, cadmium, iron, lead and vanadium (52-72%), followed by copper, nickel and zinc (20-30%), with no significant reduction being observed for mercury (12% since 1995) and chromium (2%). However, temporal trends were country-specific with sometimes increases being found.

机译：近几十年来，苔藓已成功地用作大气中重金属沉积物的生物监测器。自1990年以来，欧洲苔藓调查每五年进行一次。尽管空间格局是特定于金属的，但在苔藓中，金属的最低浓度通常在斯堪的纳维亚半岛，波罗的海国家和英国北部发现；在2005年，最低。比利时和东南欧普遍发现浓度最高。最近欧洲各地的重金属排放和随后的沉积下降导致大多数金属的苔藓中重金属浓度降低。自1990年以来，苔藓中砷，镉，铁，铅和钒的浓度下降幅度最大（52-72％），其次是铜，镍和锌（20-30％），汞含量未见明显下降（自1995年以来为12％）和铬（2％）。但是，时间趋势因国家而异，有时会有所增加。

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来源
《Environmental Pollution》 |2010年第10期|p.3144-3156|共13页
作者
H. Harmens; D.A. Norris; E. Steinnes; E. Kubin; J. Piispanen; R. Alber; Y. Aleksiayenak; O. Blum; M. Coskun; M. Dam; L. De Temmerman; J.A. Fernandez; M. Frolova; M. Frontasyeva; L. Gonzalez- Miqueo; K. Grodzinska; Z. Jeran; S. Korzekwa; M. Krmar; K. Kvietkus; S. Leblond; S. Liiv; S.H. Magnusson; B. Mankovska; R. Pesch; A. Ruehling; J.M. Santamaria; W. Schroder; Z. Spiric; I. Suchara; L. Thoeni; V. Urumov; L.Yurukova; H.G. Zechmeiste;
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作者单位

Centre for Ecology and Hydrology, Environment Centre Wales, Deiniol Road, Bangor, Gwynedd LL57 2UW, UK;

rnCentre for Ecology and Hydrology, Environment Centre Wales, Deiniol Road, Bangor, Gwynedd LL57 2UW, UK;

rnDepartment of Chemistry, Norwegian University of Science and Technology, 7491 Trondheim, Norway;

rnFinnish Forest Research Institute, Kirkkosaarentie 7, 91500 Muhos, Finland;

rnFinnish Forest Research Institute, Kirkkosaarentie 7, 91500 Muhos, Finland;

rnEnvironmental Agency of Bolzano, 39055 Laives, Italy;

rnInternational Sakharov Environmental University, Minsk, Belarus;

rnNational Botanical Garden, Academy of Science of Ukraine, Timiryazevs'ka St 1, 01014 Kyiv, Ukraine;

rnCanakkale Onsekiz Mart University, 17100 Canakkale, Turkey;

rnEnvironment Agency, TrOdagOta 38, FO-165 Argir, Faroe Islands;

rnVeterinary and Agrochemical Research Centre, Leuvensesteenweg 17, 3080 Tervuren, Belgium;

rnUniversity of Santiago de Compestela, Faculty of Biology, Department of Ecology, 15782 Santiago de Compostela, Spain;

rnLatvian Environment, Geology and Meteorology Agency, Maskavas Str. 165, Riga LV 1019, Latvia;

rnJoint Institute for Nuclear Research, Str. Joliot-Curie 6, 141980 Dubna, Russian Federation;

rnUniversity of Navarra, Irunlarrea No 1, 31008 Pamplona, Spain;

rnInstitute of Botany, Polish Academy of Sciences, Lubicz 46, 31512 Krakow, Poland;

rnJozef Stefan Institute, Department of Environmental Sciences, Jamova 39, 1000 Ljubljana, Slovenia;

rnUniversity of Opole, Poland;

rnFaculty of Science, University of Novi Sad, Trg D. Obradovica 4, 21000 Novi Sad, Serbia;

rnInstitute of Physics, Savanoriu Ave 231, 02300 Vilnius, Lithuania;

rnMuseum National d'Histoire Naturelle, 57 rue Cuvier, Case 39, 75005 Paris, France;

rnTallinn Botanic Garden, Kloostrimetsa tee 52, 11913 Tallinn, Estonia;

rnIcelandic Institute of Natural History, Hlemmur 3, 125 Reykjavik, Iceland;

rnInstitute of Landscape Ecology, Slovak Academy of Science, Stefanikova Str. 3, 814 99 Bratislava, Slovakia;

rnLandscape Ecology, University of Vechta, PO Box 1553, D-49356 Vechta, Germany;

rnHumlekaerrshultsvagen 10, 572 41 Oskarshamn, Sweden;

rnUniversity of Navarra, Irunlarrea No 1, 31008 Pamplona, Spain;

rnLandscape Ecology, University of Vechta, PO Box 1553, D-49356 Vechta, Germany;

rnOikon Ltd., Institute for Applied Ecology, Avenija V. Holjevca 20, 10020 Zagreb, Croatia;

rnSilva Tarouca Research Institute for Landscape and Ornamental Gardening, Kvetnove namesti 391, 252 43 Pruhonice, Czech Republic;

rnFUB-Research Group for Environmental Monitoring, Alte Jonastrasse 83, 8640 Rapperswil, Switzerland;

rnSaints Cyril and Methodius University, PO Box 162, 1000 Skopje, Former Yugoslav Republic of Macedonia;

rnInstitute of Botany, Bulgarian Academy of Sciences, Acad. G.Bonchev Str., Block 23, 1113 Sofia, Bulgaria;

rnUniversity of Vienna, Althanstrasse 14, 1090 Vienna, Austria;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
biomonitoring; EMEP maps; heavy metals; metal deposition; moss survey;

机译：生物监测EMEP地图;重金属;金属沉积;苔藓调查;
入库时间 2022-08-17 13:29:01

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Mosses as biomonitors of atmospheric heavy metal deposition: Spatial patterns and temporal trends in Europe

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