Understanding species-specific physiological tolerances to environmental extremes is key in determining the factors that contribute to regulating species distribution. This understanding will aid in determining which species will manage to thrive in a changing global climate. According to the IPCC (2013) it is expected that, in the coming years, many different types of abiotic factors will change as a result of global climate change. The intertidal habitat is a model habitat for studying environmental extremes as it is located at the interface between the marine and terrestrial environments, making it one of the most stressful marine habitats. It is characterized by a 24 hr light: dark cycle and a 12.4 tidal ebb and flow that exposes animal...
In this study, we compared the osmotic stress response of larval and juvenile blue mussels (Mytilus ...
Global climate change imposes physiological constraints on marine ecosystems that can alter the dist...
1. In mosaic marine habitats, such as intertidal zones, ocean acidification (OA) is exacerbated by h...
Climate change is predicted to decrease ocean salinity as the polar ice caps melt and the occurrence...
7 pages, 4 figuresCoastal organisms (i.e. intertidal or upper subtidal species) live in between the ...
The invading Mediterranean blue mussel species Mytilus galloprovincialis requires higher salinity le...
Intertidal mussel species are frequently exposed to changes of environmental parameters related to...
Intertidal mussels regularly experience emersion-induced anoxia, in contrast to normoxic conditions ...
Intertidal species face multiple stressors on a daily basis due to their particular habitat. The sub...
Presented at the Multidisciplinary Undergraduate Research Conference on March 8, 2008 in the Irving ...
The interactive effects of multiple stressors associated with global climate change will expose mari...
The rocky intertidal mussel species Mytilus californianus is native to the Pacific coast of North Am...
In the rocky intertidal, organisms frequently experience a wide range of daily body temperatures dep...
The ability of animals to cope with environmental stress depends – in part – on past experience, yet...
2012-09-22Mussels of the genus Mytilus are distributed world-wide and are commercially cultured as a...
In this study, we compared the osmotic stress response of larval and juvenile blue mussels (Mytilus ...
Global climate change imposes physiological constraints on marine ecosystems that can alter the dist...
1. In mosaic marine habitats, such as intertidal zones, ocean acidification (OA) is exacerbated by h...
Climate change is predicted to decrease ocean salinity as the polar ice caps melt and the occurrence...
7 pages, 4 figuresCoastal organisms (i.e. intertidal or upper subtidal species) live in between the ...
The invading Mediterranean blue mussel species Mytilus galloprovincialis requires higher salinity le...
Intertidal mussel species are frequently exposed to changes of environmental parameters related to...
Intertidal mussels regularly experience emersion-induced anoxia, in contrast to normoxic conditions ...
Intertidal species face multiple stressors on a daily basis due to their particular habitat. The sub...
Presented at the Multidisciplinary Undergraduate Research Conference on March 8, 2008 in the Irving ...
The interactive effects of multiple stressors associated with global climate change will expose mari...
The rocky intertidal mussel species Mytilus californianus is native to the Pacific coast of North Am...
In the rocky intertidal, organisms frequently experience a wide range of daily body temperatures dep...
The ability of animals to cope with environmental stress depends – in part – on past experience, yet...
2012-09-22Mussels of the genus Mytilus are distributed world-wide and are commercially cultured as a...
In this study, we compared the osmotic stress response of larval and juvenile blue mussels (Mytilus ...
Global climate change imposes physiological constraints on marine ecosystems that can alter the dist...
1. In mosaic marine habitats, such as intertidal zones, ocean acidification (OA) is exacerbated by h...