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Climate Change 2016

October 27-29, 2016

Volume 7, Issue 9(Suppl)

J Earth Sci Clim Change

ISSN: 2157-7617 JESCC, an open access journal

conferenceseries

.com

October 24-26, 2016 Valencia, Spain

World Conference on

Climate Change

Changes in geographical distribution of plant species as a response to climatic change on the West

Cornwall Peninsula (South West England)

Aleksandra (Sasha) Kosanic

University of Konstanz, Germany

R

ecent climate change has had a major impact on biodiversity and has altered the changes in geographical distribution of

vascular plant species. This trend is visible globally; however, more local and regional scale research is needed in order

to improve understanding of the patterns of climate change and between taxa in order to develop appropriate conservation

strategies that can minimize cultural, health and economic losses at these scales. In order to track species response to the

climate or environmental change historical records (e.g. archive weather records, herbarium collections) present exceptional

scientific and conservation value because they offer the means of tracking changes in climate and species’ geographical

distribution over time. Nevertheless, most of such datasets are still locked in museum archives and not available in digitized

or geo-referenced form. Therefore, here we present a method to manually geo-reference botanical records from a historical

herbarium dataset in order to track changes in the geographical distribution of plant species in West Cornwall (South West

England) using both historical (pre-1900) and contemporary (post-1900) distribution records. It will be also assessed weather

Ellenberg and environmental indicator values (calibrated for United Kingdom) can be used as markers of responses to climate

and environmental change. Using these techniques we detect a loss in 19 plant species, with 6 species losing more than 50%

of their previous range. Statistical analysis showed that Ellenberg (L-light, M-moisture and N-nitrogen) and environmental

indicator values (Tjan-mean January temperature, Tjul-mean July temperature and RR-mean precipitation) could be used as

environmental change indicators. Significant correlations were detected between percentage of area lost and species with lower

January temperatures, July temperatures, light, and nitrogen value, as well as higher annual precipitation and moisture values.

This study highlights the importance of historical records in examining the changes in plant species’ geographical distributions

and also presents a method for manual geo-referencing of such records. Furthermore, it also shows how Ellenberg and

environmental indicator values can be used as environmental and climate change indicators and as tools towards appropriate

conservation strategies.

Biography

Aleksandra (Sasha) Kosanic finished her PhD at the University of Exeter (United Kingdom). Her PhD research focused on the use of climatic and vegetation

historical records in order to investigate climate change at the local/regional scales (West Cornwall) and to analyze its impact on vegetation. She is a physical

geographer interested in interdisciplinary studies and in how anthropogenic drivers (i.e. climate and land use change) affect the changes in geographical distribution

of vegetation. Her current research is focused on the effects of climate and land-use change on a distribution of non-native invasive plants in Germany. She is also

interested in non-native invasive plants impact on the provisioning of ecosystem services and regional identity.

ak352@exeter.ac.uk

Aleksandra (Sasha) Kosanic, J Earth Sci Clim Change 2016, 7:9(Suppl)

http://dx.doi.org/10.4172/2157-7617.C1.027