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Publication
Genetic conectivity patterns in Holothuria Mammata considering different spatial scales
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Advisor(s)
Abstract(s)
As a consequence of the world population growth, the demand for sea food
resources is increasing. Consequently, worldwide fisheries transition from depleted
finfish resources to alternative invertebrates species created a massive industry. Sea
cucumber stocks have been overfished in Indo-Pacific Oceans as result of lack of
effective management, non-regulated fisheries and an increasing demand from Oriental
countries. The “beche de mer” demands have induced expansion of their fisheries
worldwide and have resulted in catches of new target species from the Mediterranean
Sea and NE Atlantic Ocean. With high commercial value and fragile life-history traits,
sea cucumbers are particularly vulnerable to commercial fisheries, especially when
there are no scientific knowledge to support their effective management.
This study aims to fill in some of the gap in scientific data about sea cucumber
populations, namely Holothuria mammata. It was assessed the genetic diversity and
structure, connectivity and effective population size with novel polymorphic molecular
markers (microsatellites). This analysis was done in several spatial scales and
considering oceanographic patterns. Some morphometric traits were also analysed, such
as the distribution of length and weight classes.
The results showed that Holothuria mammata has globally high genetic
diversity, higher genetic connectivity between Atlantic populations and genetic
differentiation between Atlantic/Mediterranean and eastern/western Mediterranean
basins. Effective population sizes were smaller in the Atlantic, showing some mutationdrift
disequilibrium. Oceanographic patterns were strongly correlated with the genetic
differentiation patterns. Atlantic populations presented bigger individuals (i.e. length
and weight) than Mediterranean ones, clearly associated with environmental conditions,
and ecology features. Biometric data and genetic analysis allowed us to establish the
three potential stocks inhabiting the geographic area and improve the biological
knowledge of this new target species. This information will be useful to suggest the first
recommendations to its effective fishery management, and future comparisons in order
to assess the fishery effects either at genetic and/or morphometric level.
Description
Dissertação de Mestrado, Biologia Marinha, Faculdade de Ciências e Tecnologia, Universidade do Algarve, 2015
Keywords
Holothuria mammata Fishery management Morphometry Genetic structure Oceanographic patterns Microsatellites Morphometry