With the current expansion of offshore oil activities in Arctic regions, there is
an urgent need to establish the potential effects of oil-related compounds on
Arctic organisms. The scallop Chlamys islandica is distributed throughout the
sub-Arctic and has been proposed as a sentinel species for this region. In
addition, the temperate scallop Pecten maximus occurs in regions of oil
activity and, with increasing sea temperatures, the limit of its distribution may
extend further into sub-Arctic regions. P. maximus also accumulates
contaminants to a greater extent than the current temperate sentinel Mytilus
edulis. A hierarchical approach, similar to that adopted to assess vertebrate
immune function, was used to determine immunocompetence in the Arctic
scallop C. islandica and the temperate scallop P. maximus following
exposure to oil and oil-related compounds. The Arctic scallop C. islandica
demonstrated a reduced immunocompetence following both dispersed and
acute oil exposure. Immunomodulation in the scallops exposed to low levels
of dispersed oil appeared to be reversible following removal of the
contaminant stress (Chapter 3). However, a simulated oil spill resulted in
mortalities and it remains unclear if the organisms are able to recover from
the substantial immune suppression observed (Chapter 4). A component of
crude oil and the most abundant PAH in aquatic ecosystems, phenanthrene
suppressed immune function in P. maximus. These results indicated a link
between PAH-induced oxidative stress and the subsequent inhibition in
haemocyte immune function (Chapter 5). However, the ability of scallop
haemocytes to recognise and respond to a pathogen-associated molecular
pattern was not affected by phenanthrene exposure (Chapter 6). The
immune parameters used in this research were shown to be sensitive,
reliable markers of immunocompetence that can be directly linked to host
resistance (Chapter 7). These immune parameters were also used to assess
the sublethal effects of drilling wastes associated with offshore oil production
(Chapter 8), indicating their potential as ecotoxicological monitoring tools.
Date of Award | 2010 |
---|
Original language | English |
---|
Awarding Institution | |
---|
Effects of oil exposure and oil-related compounds on the immune system of the arctic and temperate scallops, chlamysislandica and pecten maximus
Lynhannam, M. L. (Author). 2010
Student thesis: PhD