Add to ORKGMarine macroinvertebrates are ideal sentinel organisms to monitor rapid environmental changes associated with climatic phenomena. These organisms build up protective exoskeletons incrementally by biologically-controlled mineralization, which is deeply rooted in long-term evolutionary processes. Recent studies relating potential rapid environmental fluctuations to climate change, such as ocean acidification, suggest modifications on carbonate biominerals of marine invertebrates. However, the influence of known, and recurrent, climatic events on these biological processes during active mineralization is still insufficiently understood. Analysis of Peruvian cockles from the 1982–83 large magnitude El Niño event shows significant alterations o...
Trace elements in calcareous organisms have been widely used for paleoclimatic studies. However, the...
Understanding environmental proxies stored in biogenic carbonates has become a major task and a mult...
International audienceSaint-Pierre and Miquelon (SPM) is a small archipelago where instrumental meas...
<div><p>Marine macroinvertebrates are ideal sentinel organisms to monitor rapid environmental change...
Marine macroinvertebrates are ideal sentinel organisms to monitor rapid environmental changes associ...
Marine bivalve mollusks are valued as climate change recorders due to predictable growth rates and t...
Nearshore New Zealand mollusca (shellfish) have the potential to be important archives of environmen...
The purpose of this research is to characterize Peruvian upwelling during the late Holocene (last 20...
Ocean acidification, a product of increasing atmospheric carbon dioxide, may already have affected c...
Ocean acidification can negatively impact marine bivalves, especially their shell mineralization pro...
Anthropogenic warming and ocean acidification are predicted to negatively affect marine calcifiers. ...
The potential of Mg in Arctica islandica as a climate proxy is explored through analysis of live-col...
Models suggest that marine calcifiers (organisms that precipitate a calcium carbonate exoskeleton) a...
noThe potential of Mg in Arctica islandica as a climate proxy is explored through analysis of live-c...
Trace elements in calcareous organisms have been widely used for paleoclimatic studies. However, the...
Understanding environmental proxies stored in biogenic carbonates has become a major task and a mult...
International audienceSaint-Pierre and Miquelon (SPM) is a small archipelago where instrumental meas...
<div><p>Marine macroinvertebrates are ideal sentinel organisms to monitor rapid environmental change...
Marine macroinvertebrates are ideal sentinel organisms to monitor rapid environmental changes associ...
Marine bivalve mollusks are valued as climate change recorders due to predictable growth rates and t...
Nearshore New Zealand mollusca (shellfish) have the potential to be important archives of environmen...
The purpose of this research is to characterize Peruvian upwelling during the late Holocene (last 20...
Ocean acidification, a product of increasing atmospheric carbon dioxide, may already have affected c...
Ocean acidification can negatively impact marine bivalves, especially their shell mineralization pro...
Anthropogenic warming and ocean acidification are predicted to negatively affect marine calcifiers. ...
The potential of Mg in Arctica islandica as a climate proxy is explored through analysis of live-col...
Models suggest that marine calcifiers (organisms that precipitate a calcium carbonate exoskeleton) a...
noThe potential of Mg in Arctica islandica as a climate proxy is explored through analysis of live-c...
Trace elements in calcareous organisms have been widely used for paleoclimatic studies. However, the...
Understanding environmental proxies stored in biogenic carbonates has become a major task and a mult...
International audienceSaint-Pierre and Miquelon (SPM) is a small archipelago where instrumental meas...