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Alireza Naqinezhad

Alireza Naqinezhad

Academic rank: Professor
ORCID:
Education: PhD.
ScopusId:
HIndex: 0/00
Faculty: Science
Address: Department of Biology, University of Mazandaran
Phone: 01135302459

Research

Title
The Late-Holocene climate change, vegetation dynamics, lake-level changes and anthropogenic impacts in the Lake Urmia region, NW Iran
Type
JournalPaper
Keywords
Holocene Rapid climatic changes Anthropogenic activities Vegetation history Riella Lake Urmia
Year
2016
Journal QUATERNARY INTERNATIONAL
DOI
Researchers Taravat Talebi ، Elias Ramezani ، Morteza Djamali ، Hamid Alizadeh Ketek Lahijani ، Alireza Naqinezhad ، Kamaleddin Alizadeh ، Valerie Andrieu-Ponel

Abstract

Two short (100 and 175 cm-long) sediment cores from the southwestern corner of Lake Urmia provide a record of vegetation dynamics, lake-level changes and the role of climate and humans in shaping the landscape around Lake Urmia over the last 2550 years. Relatively low values of arboreal pollen (AP), and substantial values of Artemisia pollen from 2550 to 1500 cal BP indicate the prevalence of steppe vegetation and relatively arid climate in the area. However, a prominent peak of Riella spores may indicate a short-lived lake-level rise for the period 1900e2000 cal BP. The next period, 1500e550 cal BP, is characterized by substantial rise in AP, particularly Quercus, and a sharp decline of Artemisia, Chenopodiaceae/ Amaranthaceae and wetland pollen types, suggesting the expansion of oak forests under a rather moist climate and/or a decline in agro-sylvo-pastoral practices in the area. Agricultural activity in the area can be inferred from sporadic occurrences of Vitis, Ricinus and Juglans pollen from the beginning of the record. The rise of saline habitat pollen types between 1100 and 800 cal BP, along with increased values of magnetic susceptibility and organic matter, suggest a lower water level and the subaerial exposure of saline mud flats, which could favour the re-colonization of chenopods and other halophytes around the margins of the lake. Thus, the Medieval Climatic Anomaly seems to be warmer-than-present in the Lake Urmia region. From 450 to 150 cal BP, the decline in Quercus and high values of Artemisia, along with higher lake levels and high magnetic susceptibility values, could be associated with the Little Ice Age. Since 500 cal BP, Quercus and Riella steadily decline and fade out towards the surface of the core, whereas pollen types attributable to steppe and desert vegetation increase. A prominent increase in organic matter in the uppermost part of the record could be associated with a lower lake level and the expansion of wetland vegetation in the rec