Add to ORKGIntertidal organisms must episodically contend with the rigors of both the terrestrial and the marine environments. While body temperatures during high tide are driven primarily by water temperature, aerial body temperatures are driven by multiple environmental factors such that temperature of an organism during low tide is usually quite different from air temperature. Thus, whereas decades of research have investigated the effects of water temperature on intertidal species, considerably less is known about the physiological impacts of temperature during aerial exposure at low tide, especially with regard to the interaction of aerial body temperature with other stressors. We examined the interactive effects of aerial body temperature and fo...
Marine organisms living within the intertidal zones, such as mussels, experience a wide range of env...
Latitudinal distributions of many organisms are limited by temperature. In such cases, the poleward ...
As ocean and atmospheric temperatures increase globally, marine organisms will need to cope with or ...
In the rocky intertidal, organisms frequently experience a wide range of daily body temperatures dep...
International audienceAlthough the direct effects of climate change on species distribution and abun...
International audienceExtreme events such as heat waves have increased in frequency and duration ove...
Temperature is a major factor contributing to the biogeography of intertidal poikilotherms. The popu...
In complex habitats, environmental variation over small spatial scales can equal or exceed larger-sc...
Recent studies have emphasised that organisms can experience physiological stress well within their ...
Thesis (M.A.)--Humboldt State University, Biology, 2009Mytilus californianus beds along the wave-exp...
Graduation date: 2007Environmental stress can negatively affect the ability of organisms to reproduc...
Non-native species often have ecological impacts on invaded communities. The quanti#cation of featu...
Marine intertidal organisms live in a habitat that is characterized by acute environmental gradients...
In complex habitats, environmental variation over small spatial scales can equal or exceed larger-sc...
As ocean temperatures continue to rise due to climate change, many questions remain on how coastal s...
Marine organisms living within the intertidal zones, such as mussels, experience a wide range of env...
Latitudinal distributions of many organisms are limited by temperature. In such cases, the poleward ...
As ocean and atmospheric temperatures increase globally, marine organisms will need to cope with or ...
In the rocky intertidal, organisms frequently experience a wide range of daily body temperatures dep...
International audienceAlthough the direct effects of climate change on species distribution and abun...
International audienceExtreme events such as heat waves have increased in frequency and duration ove...
Temperature is a major factor contributing to the biogeography of intertidal poikilotherms. The popu...
In complex habitats, environmental variation over small spatial scales can equal or exceed larger-sc...
Recent studies have emphasised that organisms can experience physiological stress well within their ...
Thesis (M.A.)--Humboldt State University, Biology, 2009Mytilus californianus beds along the wave-exp...
Graduation date: 2007Environmental stress can negatively affect the ability of organisms to reproduc...
Non-native species often have ecological impacts on invaded communities. The quanti#cation of featu...
Marine intertidal organisms live in a habitat that is characterized by acute environmental gradients...
In complex habitats, environmental variation over small spatial scales can equal or exceed larger-sc...
As ocean temperatures continue to rise due to climate change, many questions remain on how coastal s...
Marine organisms living within the intertidal zones, such as mussels, experience a wide range of env...
Latitudinal distributions of many organisms are limited by temperature. In such cases, the poleward ...
As ocean and atmospheric temperatures increase globally, marine organisms will need to cope with or ...