Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment
Zooids in bryozoan colonies show an ecophenotypic response in which zooid size varies inversely with temperature at the time of zooid growth. A technique called MART analysis allows estimation of the mean annual range of temperature (MART) in Recent or paleo- marine environments by measuring the mea...
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21st Century COE for Neo-Science of Natural History, Hokkaido University
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fthokunivhus:oai:eprints.lib.hokudai.ac.jp:2115/38444 2023-05-15T18:49:03+02:00 Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment Dick, Matthew H. Hirose, Masato Takashima, Reishi Ishimura, Toyoho Nishi, Hiroshi Mawatari, Shunsuke F. http://hdl.handle.net/2115/38444 eng eng 21st Century COE for Neo-Science of Natural History, Hokkaido University Edited by Hisatake Okada, Shunsuke F. Mawatari, Noriyuki Suzuki, Pitambar Gautam. ISBN: 978-4-9903990-0-9 http://hdl.handle.net/2115/38444 International Symposium, "The Origin and Evolution of Natural Diversity", Sapporo Bryozoa Ecophenotypic response Growth MART Paleoseasonality SL-MART Temperature 450 proceedings fthokunivhus 2022-11-18T01:01:45Z Zooids in bryozoan colonies show an ecophenotypic response in which zooid size varies inversely with temperature at the time of zooid growth. A technique called MART analysis allows estimation of the mean annual range of temperature (MART) in Recent or paleo- marine environments by measuring the mean coefficient of variation (CV) of zooid size in species of cheilostome bryozoans that lived in those environments. We conducted standard MART analyses of Recent specimens from nearshore shelf regions in Akkeshi Bay (Japan) and the western Aleutian Islands (Alaska) as controls on our application of the method, and of fossil specimens from a Pleistocene shallow benthic environment [Nakasato Congomerate Member, Utasai Section, lower Setana Formation (1.2~1.0 Ma), Kuromatsunai, Hokkaido, Japan] to examine paleoseasonality. In some cases, not enough material was available from fossil strata to conduct standard MART analyses. For these cases, we developed a modified technique that we call specimen-limited MART analysis, or SL-MART. We applied this technique to specimens from two stratigraphically sequential sediment samples from the Soebetsu Sandstone Member in the Soebetsu Section of the upper Setana Formation (1.0-0.6 Ma). Regardless of technique or age of the specimens, replicate samples in our analyses provided remarkably similar estimates of seasonality. The utility of the controls was questionable due to uncertainty about present-day temperature ranges in the localities sampled. A decrease in average MART value from the lower to upper Setana Formation (11.8℃ and 8.6℃, respectively) indicates more pronounced seasonality in the lower than the upper Setana, perhaps suggesting a shift to colder conditions in the latter. However, the younger samples could also have lived at a greater depth, which would also reduce the MART. In addition, previous studies of marine mollusks indicate variability in paleoenvironment within both the upper and lower Setana Formation, perhaps related to the warm Tsushima current that flowed into ... Conference Object Alaska Aleutian Islands Hokkaido University Collection of Scholarly and Academic Papers (HUSCAP) |
| institution |
Open Polar |
| collection |
Hokkaido University Collection of Scholarly and Academic Papers (HUSCAP) |
| op_collection_id |
fthokunivhus |
| language |
English |
| topic |
Bryozoa Ecophenotypic response Growth MART Paleoseasonality SL-MART Temperature 450 |
| spellingShingle |
Bryozoa Ecophenotypic response Growth MART Paleoseasonality SL-MART Temperature 450 Dick, Matthew H. Hirose, Masato Takashima, Reishi Ishimura, Toyoho Nishi, Hiroshi Mawatari, Shunsuke F. Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment |
| topic_facet |
Bryozoa Ecophenotypic response Growth MART Paleoseasonality SL-MART Temperature 450 |
| description |
Zooids in bryozoan colonies show an ecophenotypic response in which zooid size varies inversely with temperature at the time of zooid growth. A technique called MART analysis allows estimation of the mean annual range of temperature (MART) in Recent or paleo- marine environments by measuring the mean coefficient of variation (CV) of zooid size in species of cheilostome bryozoans that lived in those environments. We conducted standard MART analyses of Recent specimens from nearshore shelf regions in Akkeshi Bay (Japan) and the western Aleutian Islands (Alaska) as controls on our application of the method, and of fossil specimens from a Pleistocene shallow benthic environment [Nakasato Congomerate Member, Utasai Section, lower Setana Formation (1.2~1.0 Ma), Kuromatsunai, Hokkaido, Japan] to examine paleoseasonality. In some cases, not enough material was available from fossil strata to conduct standard MART analyses. For these cases, we developed a modified technique that we call specimen-limited MART analysis, or SL-MART. We applied this technique to specimens from two stratigraphically sequential sediment samples from the Soebetsu Sandstone Member in the Soebetsu Section of the upper Setana Formation (1.0-0.6 Ma). Regardless of technique or age of the specimens, replicate samples in our analyses provided remarkably similar estimates of seasonality. The utility of the controls was questionable due to uncertainty about present-day temperature ranges in the localities sampled. A decrease in average MART value from the lower to upper Setana Formation (11.8℃ and 8.6℃, respectively) indicates more pronounced seasonality in the lower than the upper Setana, perhaps suggesting a shift to colder conditions in the latter. However, the younger samples could also have lived at a greater depth, which would also reduce the MART. In addition, previous studies of marine mollusks indicate variability in paleoenvironment within both the upper and lower Setana Formation, perhaps related to the warm Tsushima current that flowed into ... |
| format |
Conference Object |
| author |
Dick, Matthew H. Hirose, Masato Takashima, Reishi Ishimura, Toyoho Nishi, Hiroshi Mawatari, Shunsuke F. |
| author_facet |
Dick, Matthew H. Hirose, Masato Takashima, Reishi Ishimura, Toyoho Nishi, Hiroshi Mawatari, Shunsuke F. |
| author_sort |
Dick, Matthew H. |
| title |
Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment |
| title_short |
Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment |
| title_full |
Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment |
| title_fullStr |
Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment |
| title_full_unstemmed |
Application of MART Analysis to Infer Paleoseasonality in a Pleistocene Shallow Marine Benthic Environment |
| title_sort |
application of mart analysis to infer paleoseasonality in a pleistocene shallow marine benthic environment |
| publisher |
21st Century COE for Neo-Science of Natural History, Hokkaido University |
| url |
http://hdl.handle.net/2115/38444 |
| genre |
Alaska Aleutian Islands |
| genre_facet |
Alaska Aleutian Islands |
| op_relation |
Edited by Hisatake Okada, Shunsuke F. Mawatari, Noriyuki Suzuki, Pitambar Gautam. ISBN: 978-4-9903990-0-9 http://hdl.handle.net/2115/38444 International Symposium, "The Origin and Evolution of Natural Diversity", Sapporo |
| _version_ |
1766242496392724480 |