E. Sreevidya, M. B. L. Mascarenhas-Pereira, B. Nagender Nath, A. V. Sijinkumar, Pankaj Kumar
{"title":"翼足目 Heliconoides inflatus 贝壳尺寸变化:第四纪晚期印度洋碳酸盐化学推论","authors":"E. Sreevidya, M. B. L. Mascarenhas-Pereira, B. Nagender Nath, A. V. Sijinkumar, Pankaj Kumar","doi":"10.1007/s00367-024-00772-7","DOIUrl":null,"url":null,"abstract":"<p>The current study is an effort to understand the relationship between the average shell size and <i>Limacina</i> Dissolution Index (LDX) of pteropod species, <i>Heliconoides inflatus</i> as a metric for shell calcification using several cores, ranging in age from recent to 1.2 Myr. The current study is based on the variability of <i>H. inflatus</i> average shell size, LDX, and fragmentation ratio (FR) and their correlation among different spatial and temporal sediment core records from the Northern Indian Ocean. Results suggest that in the cores collected above the Aragonite lysocline (Aly) and the Aragonite Compensation Depth (ACD) (SPC 05, 06, 09, 11, 12, 13, 14, and NGHP-17), the average shell size values exhibited larger shells during the stadials/glacial periods (Little Ice Age (LIA), Marine Isotope Stages (MIS) 3, 6, 10 − 9 transition etc.) which corresponds to lower LDX values. However, the cores beyond the ACD (SK168, AAS11, and RVS2) show larger shell size values during the warm interstadials (e.g., Bølling–Allerød) with higher FR. The variability in shell size and LDX shows an indication of the carbonate ion saturation in the water column over glacial/interglacial time scales and the impact of changing atmospheric CO<sub>2</sub> in the atmosphere. However, the factors adding to the carbonate ion saturation within the water column could be varied physiographically. The calcification proxy complements the dissolution proxies and reveals that the most intense aragonite dissolution occurred during the Holocene and interstadials/interglacials.</p>","PeriodicalId":12500,"journal":{"name":"Geo-Marine Letters","volume":"39 1","pages":""},"PeriodicalIF":1.4000,"publicationDate":"2024-05-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Shell size variation of pteropod Heliconoides inflatus: inferences on Indian Ocean carbonate chemistry during late Quaternary\",\"authors\":\"E. Sreevidya, M. B. L. Mascarenhas-Pereira, B. Nagender Nath, A. V. Sijinkumar, Pankaj Kumar\",\"doi\":\"10.1007/s00367-024-00772-7\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>The current study is an effort to understand the relationship between the average shell size and <i>Limacina</i> Dissolution Index (LDX) of pteropod species, <i>Heliconoides inflatus</i> as a metric for shell calcification using several cores, ranging in age from recent to 1.2 Myr. The current study is based on the variability of <i>H. inflatus</i> average shell size, LDX, and fragmentation ratio (FR) and their correlation among different spatial and temporal sediment core records from the Northern Indian Ocean. Results suggest that in the cores collected above the Aragonite lysocline (Aly) and the Aragonite Compensation Depth (ACD) (SPC 05, 06, 09, 11, 12, 13, 14, and NGHP-17), the average shell size values exhibited larger shells during the stadials/glacial periods (Little Ice Age (LIA), Marine Isotope Stages (MIS) 3, 6, 10 − 9 transition etc.) which corresponds to lower LDX values. However, the cores beyond the ACD (SK168, AAS11, and RVS2) show larger shell size values during the warm interstadials (e.g., Bølling–Allerød) with higher FR. The variability in shell size and LDX shows an indication of the carbonate ion saturation in the water column over glacial/interglacial time scales and the impact of changing atmospheric CO<sub>2</sub> in the atmosphere. However, the factors adding to the carbonate ion saturation within the water column could be varied physiographically. 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Shell size variation of pteropod Heliconoides inflatus: inferences on Indian Ocean carbonate chemistry during late Quaternary
The current study is an effort to understand the relationship between the average shell size and Limacina Dissolution Index (LDX) of pteropod species, Heliconoides inflatus as a metric for shell calcification using several cores, ranging in age from recent to 1.2 Myr. The current study is based on the variability of H. inflatus average shell size, LDX, and fragmentation ratio (FR) and their correlation among different spatial and temporal sediment core records from the Northern Indian Ocean. Results suggest that in the cores collected above the Aragonite lysocline (Aly) and the Aragonite Compensation Depth (ACD) (SPC 05, 06, 09, 11, 12, 13, 14, and NGHP-17), the average shell size values exhibited larger shells during the stadials/glacial periods (Little Ice Age (LIA), Marine Isotope Stages (MIS) 3, 6, 10 − 9 transition etc.) which corresponds to lower LDX values. However, the cores beyond the ACD (SK168, AAS11, and RVS2) show larger shell size values during the warm interstadials (e.g., Bølling–Allerød) with higher FR. The variability in shell size and LDX shows an indication of the carbonate ion saturation in the water column over glacial/interglacial time scales and the impact of changing atmospheric CO2 in the atmosphere. However, the factors adding to the carbonate ion saturation within the water column could be varied physiographically. The calcification proxy complements the dissolution proxies and reveals that the most intense aragonite dissolution occurred during the Holocene and interstadials/interglacials.
期刊介绍:
Geo-Marine Letters is an international peer-reviewed journal focussing on the rapid publication of concise original studies and reviews dealing with processes, products and techniques in marine geology, geophysics, and geochemistry. Coverage spans
- structural geology, including plate tectonics of recent active and passive margins
- sea-bed morphology, physiography and morphodynamics
- sediment transport, depositional processes and sedimentary facies analysis
- stratigraphy, basin analysis and paleoenvironmental reconstruction
- sea-level history, paleoproductivity, gas hydrates, salt domes and brines
- sediment-water interaction and organism-sediment relationships
- geochemical tracers, stable isotopes and authigenic mineral formation
- geotechnical properties and application of new geo-marine techniques, and more.
In addition to regular articles, reviews, discussion/reply articles and technical papers, Geo-Marine Letters welcomes contributions by guest editors in the form of conference/workshop proceedings, or bundles of papers dealing with specific themes.