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Volume 7, Issue 1 (Suppl)

J Ecosyst Ecogr

ISSN: 2157-7625 JEE, an open access journal

Biodiversity Congress 2017

April 27-28, 2017

Page 18

conference

series

.com

April 27-28, 2017 Dubai, UAE

6

th

International Conference on

Biodiversity and Conservation

Cumulative impact assessment as a key conservation planning tool: An application on

Posidonia

oceanica

meadows in Greek waters of the Aegean Sea

C

umulative impact assessment is a computational tool for quantifying and visualizing the consequences of a combination

of pressures caused by human activities on ecosystem components. It is a fundamental process in Conservation Planning

and Marine Spatial Planning efforts based on an Ecosystem-Based Approach. For assessing the sum of impacts on ecosystem

components, a well-developed approach that takes into consideration the presence/absence grid data of human activities and

ecosystem components has been used. This approach requires a thorough knowledge of human activities (intensity, location)

and ecosystem components (i.e. vulnerability, resilience) to assess their collective impacts. In this study, a key ecosystem

component for the Mediterranean, the

Posidonia oceanica

meadows, has been selected aiming to identify areas where the status

of this priority habitat is threatened and hence deserve the attention of the management authorities. As a first step, geospatial

data of human activities and existing management measures were collected and processed. An impact score representing the

per-pixel (1 km*1 km cell) average of

Posidonia oceanica

meadows vulnerability-weighted stressor intensities was calculated

and mapped. According to the impact score, the total pressure on this ecosystem component was very low (79.8%) in the vast

majority of the area where

Posidonia oceanica

extends (Figure 1). However, certain locations where the exerted pressures on sea

grasses seemed to be rather high were identified in the sea regions of Chalkidiki, Attica, Southern Aegean Sea and Crete. These

pressures appeared to be mainly connected to drivers such as small scale fishing, urbanization, ports and agricultural run-off.

The latter suggest that aside from truly marine activities (e.g. small scale fishing), the importance of land sea interactions is also

crucial for determining the status of coastal ecosystems.

Biography

Vassiliki Vassilopoulou (PhD) is a Research Director at Hellenic Centre for Marine Research, Greece. She is involved in research activities in the field of ecosystem-

based fisheries management. Since 2009, she has been engaged in Maritime Spatial Planning research issues through her involvement in several EU projects.

In the last years, she is also working on issues related to the development of a more efficient interface between policy needs and scientific advice through

interaction with key stakeholders. She has acted as chairperson or moderator, and/or was an invited speaker, in sessions dedicated to topics of her expertise in

international conferences and workshops, and has been giving pertinent postgraduate lectures in the Universities of Athens and Thessaloniki. She is member of

International Scientific Committees and has recently joined the Commission on Ecosystem Management (CEM) of the IUCN. She has more than 150 publications

and presentations in international scientific journals and conferences.

celia@hcmr.gr

Vassiliki Vassilopoulou

Hellenic Centre for Marine Research, Greece

Vassiliki Vassilopoulou, J Ecosyst Ecogr 2017, 7:1(Suppl)

http://dx.doi.org/10.4172/2157-7625-C1-025