Add to ORKGMicrogrowth patterns and the oxygen isotope composition of juvenile, shallow-marine bivalve mollusk shells of Phacosoma japonicum (Reeve) in Japan were analyzed and cross-calibrated with environmental parameters. Mark-and-recovery experiments indicate that a pair of two microgrowth lines and two microgrowth increments is produced every lunar day. This finding makes it possible to assign exact calendar dates to each portion of the shell. Average daily growth rates decrease by 61% from age two to three and 55% from age three to four. The length of the growing season and the growth rate are mainly controlled by temperature: shell growth ceases below 14.2degreesC (age two) and 16.8degreesC (age four) and is most rapid between 24.6degreesC and 2...
This paper presents a four year subannual isotope marine temperature record using modern Spisula sac...
By means of a monitoring experiment in two rivers in the Netherlands, we establish a relationship be...
Individual age is a key parameter when studying population dynamics of a species. However, accurate ...
Annual growth increment patterns of cardinal teeth (CT) of Panopea abrupta (Conrad) can reportedly p...
Bivalve mollusks are biological chart recorders: their shells contain a record of environmental cond...
Organisms that grow by skeletal accretion contain a geochemical record of environmental conditions--...
Shells of the extremely long-lived bivalve mollusk Arctica islandica (Linnaeus 1767) provide century...
Seasonal shell growth patterns were analyzed using the stable oxygen and carbon isotope values of li...
International audienceHigh-resolution stable-isotope ratio data (delta O-18, delta O-18) were used t...
WOS:000426027100014Seasonal shell growth patterns were analyzed using the stable oxygen and carbon i...
Annual-oxygen isotope profiles from two live-collected specimens of Chione cortezi Carpenter were an...
This study analyzed the isotopic profiles of four aragonitic shells of Scrobicularia plana in conjun...
Sclerochronology and analysis of oxygen isotopes reveal the age, growth rate, and growth patterns of...
Annual-oxygen isotope profiles from two live-collected spec-imens of Chione cortezi Carpenter were a...
By means of a monitoring experiment in two rivers in the Netherlands, we establish a relationship be...
This paper presents a four year subannual isotope marine temperature record using modern Spisula sac...
By means of a monitoring experiment in two rivers in the Netherlands, we establish a relationship be...
Individual age is a key parameter when studying population dynamics of a species. However, accurate ...
Annual growth increment patterns of cardinal teeth (CT) of Panopea abrupta (Conrad) can reportedly p...
Bivalve mollusks are biological chart recorders: their shells contain a record of environmental cond...
Organisms that grow by skeletal accretion contain a geochemical record of environmental conditions--...
Shells of the extremely long-lived bivalve mollusk Arctica islandica (Linnaeus 1767) provide century...
Seasonal shell growth patterns were analyzed using the stable oxygen and carbon isotope values of li...
International audienceHigh-resolution stable-isotope ratio data (delta O-18, delta O-18) were used t...
WOS:000426027100014Seasonal shell growth patterns were analyzed using the stable oxygen and carbon i...
Annual-oxygen isotope profiles from two live-collected specimens of Chione cortezi Carpenter were an...
This study analyzed the isotopic profiles of four aragonitic shells of Scrobicularia plana in conjun...
Sclerochronology and analysis of oxygen isotopes reveal the age, growth rate, and growth patterns of...
Annual-oxygen isotope profiles from two live-collected spec-imens of Chione cortezi Carpenter were a...
By means of a monitoring experiment in two rivers in the Netherlands, we establish a relationship be...
This paper presents a four year subannual isotope marine temperature record using modern Spisula sac...
By means of a monitoring experiment in two rivers in the Netherlands, we establish a relationship be...
Individual age is a key parameter when studying population dynamics of a species. However, accurate ...