Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies
We investigated foraminiferal distributions from two salt-marsh sites at Thunderbolt and Georgetown, in mainland northern Georgia, U.S. Atlantic coast. We analyzed modern epifaunal foraminiferal assemblages across multiple transects consisting of 54 surface samples. Multivariate statistical analysis...
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Social sciences::Geography Intertidal Foraminifera Infaunal Chen, Huixian Shaw, Timothy Adam Wang, Jianhua Engelhart, Simon E. Nikitina, Daria Pilarczyk, Jessica E. Walker, Jennifer García-Artola, Ane Horton, Benjamin Peter Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies |
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We investigated foraminiferal distributions from two salt-marsh sites at Thunderbolt and Georgetown, in mainland northern Georgia, U.S. Atlantic coast. We analyzed modern epifaunal foraminiferal assemblages across multiple transects consisting of 54 surface samples. Multivariate statistical analysis (Partitioning Around Medoids and Detrended Correspondence Analysis) revealed that dead foraminiferal assemblages are divided into three faunal zones, which are elevation-dependent and site-specific. At Thunderbolt, an intermediate salinity marsh (17‰), high marsh assemblages are dominated by Haplophragmoides spp. with an elevational range of 1.19 to 1.68 m mean tide level (MTL) between Mean Higher High Water (MHHW) to Highest Astronomical Tide (HAT). Low marsh assemblages are dominated by Miliammina fusca and Ammobaculites spp. with an elevational range of – 0.05 to 1.14 m MTL (between MTL and MHHW). At Georgetown, a low salinity marsh (6‰), the assemblages are dominated by Ammoastuta inepta with an elevational range of 0.43 to 1.16 m MTL (between MTL and MHHW). We also enumerated living infaunal foraminiferal populations from six 50-cm sediment cores from the two salt marshes to assess implications for interpretations of sea-level change. Peak concentrations of living foraminiferal populations occur in the upper 1-cm surface sediment in five of the six cores. An exception was observed in high marsh settings of Thunderbolt, where Haplophragmoides spp. and Arenoparrella mexicana were observed living down to 40 cm depth and both the live and dead abundance peaked (32 and 520 specimens per 10 cc respectively) between depths of 15–35 cm in the core. The dominant infaunal species were similar to those observed in modern surface samples, and the total number of infaunal foraminifera was typically less than 15% compared to the total number of dead specimens in the surface samples. Finally, we compared the down-core patterns of living and dead foraminiferal abundance that suggest that 90% of the tests were removed within the upper 10 cm of sediment in most cores. This may be due to taphonomic alteration from bioturbation and/or microbial processes. Selective preservation between resistant species such as A. mexicana and fragile species like M. fusca and Ammobaculites spp. can change the subsurface foraminiferal assemblage. This has the potential to cause errors in sea-level reconstructions using foraminiferal assemblage from low marsh sediments. This study highlights the modern vertical distribution of salt-marsh foraminifera in mainland northern Georgia and their potential as modern analogues for fossil counterparts in reconstructing sea-level changes. Taphonomic processes may cause the absence of foraminiferal tests or differences between modern and fossil assemblages, which could be problematic when performing RSL reconstructions in low marsh environment. |
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Asian School of the Environment |
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Asian School of the Environment Chen, Huixian Shaw, Timothy Adam Wang, Jianhua Engelhart, Simon E. Nikitina, Daria Pilarczyk, Jessica E. Walker, Jennifer García-Artola, Ane Horton, Benjamin Peter |
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Article |
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Chen, Huixian Shaw, Timothy Adam Wang, Jianhua Engelhart, Simon E. Nikitina, Daria Pilarczyk, Jessica E. Walker, Jennifer García-Artola, Ane Horton, Benjamin Peter |
| author_sort |
Chen, Huixian |
| title |
Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies |
| title_short |
Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies |
| title_full |
Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies |
| title_fullStr |
Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies |
| title_full_unstemmed |
Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies |
| title_sort |
salt-marsh foraminiferal distributions from mainland northern georgia, usa : an assessment of their viability for sea-level studies |
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2020 |
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https://hdl.handle.net/10356/145261 |
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1759857213155835904 |
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sg-ntu-dr.10356-1452612023-02-28T16:41:57Z Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies Chen, Huixian Shaw, Timothy Adam Wang, Jianhua Engelhart, Simon E. Nikitina, Daria Pilarczyk, Jessica E. Walker, Jennifer García-Artola, Ane Horton, Benjamin Peter Asian School of the Environment Earth Observatory of Singapore Social sciences::Geography Intertidal Foraminifera Infaunal We investigated foraminiferal distributions from two salt-marsh sites at Thunderbolt and Georgetown, in mainland northern Georgia, U.S. Atlantic coast. We analyzed modern epifaunal foraminiferal assemblages across multiple transects consisting of 54 surface samples. Multivariate statistical analysis (Partitioning Around Medoids and Detrended Correspondence Analysis) revealed that dead foraminiferal assemblages are divided into three faunal zones, which are elevation-dependent and site-specific. At Thunderbolt, an intermediate salinity marsh (17‰), high marsh assemblages are dominated by Haplophragmoides spp. with an elevational range of 1.19 to 1.68 m mean tide level (MTL) between Mean Higher High Water (MHHW) to Highest Astronomical Tide (HAT). Low marsh assemblages are dominated by Miliammina fusca and Ammobaculites spp. with an elevational range of – 0.05 to 1.14 m MTL (between MTL and MHHW). At Georgetown, a low salinity marsh (6‰), the assemblages are dominated by Ammoastuta inepta with an elevational range of 0.43 to 1.16 m MTL (between MTL and MHHW). We also enumerated living infaunal foraminiferal populations from six 50-cm sediment cores from the two salt marshes to assess implications for interpretations of sea-level change. Peak concentrations of living foraminiferal populations occur in the upper 1-cm surface sediment in five of the six cores. An exception was observed in high marsh settings of Thunderbolt, where Haplophragmoides spp. and Arenoparrella mexicana were observed living down to 40 cm depth and both the live and dead abundance peaked (32 and 520 specimens per 10 cc respectively) between depths of 15–35 cm in the core. The dominant infaunal species were similar to those observed in modern surface samples, and the total number of infaunal foraminifera was typically less than 15% compared to the total number of dead specimens in the surface samples. Finally, we compared the down-core patterns of living and dead foraminiferal abundance that suggest that 90% of the tests were removed within the upper 10 cm of sediment in most cores. This may be due to taphonomic alteration from bioturbation and/or microbial processes. Selective preservation between resistant species such as A. mexicana and fragile species like M. fusca and Ammobaculites spp. can change the subsurface foraminiferal assemblage. This has the potential to cause errors in sea-level reconstructions using foraminiferal assemblage from low marsh sediments. This study highlights the modern vertical distribution of salt-marsh foraminifera in mainland northern Georgia and their potential as modern analogues for fossil counterparts in reconstructing sea-level changes. Taphonomic processes may cause the absence of foraminiferal tests or differences between modern and fossil assemblages, which could be problematic when performing RSL reconstructions in low marsh environment. Ministry of Education (MOE) National Research Foundation (NRF) Published version We thank Candace Grand Pre, Simin Liu, Andrew C. Kemp, and a cohort of Earthwatch students for their assistance in the field. Earthwatch student participation was sup-ported by a grant to Earthwatch from the Durfee Foun-dation. We thank China Scholarship Council to support Chen Huixian staying in the US to work on this research. TS and BPH were funded by the Singapore Ministry of Education Academic Research Fund MOE2018-T2-1-030, the National Research Foundation Singapore, and the Singapore Ministry of Education, under the Research Centres of Excellence initiative. This article is a contribu-tion to PALSEA3 (Palaeo-Constraints on Sea-Level Rise) and International Geoscience Program (IGCP) Project 639, “Sea Level Change from Minutes to Millennia”. This work is Earth Observatory of Singapore contribution 290. 2020-12-16T03:42:42Z 2020-12-16T03:42:42Z 2020 Journal Article Chen, H., Shaw, T. A., Wang, J., Engelhart, S. E., Nikitina, D., Pilarczyk, J. E., . . . Horton, B. P. (2020). Salt-marsh foraminiferal distributions from mainland northern Georgia, USA : an assessment of their viability for sea-level studies. Open Quaternary, 6(1), 6-. doi:10.5334/oq.80 2055-298X https://hdl.handle.net/10356/145261 10.5334/oq.80 1 6 en MOE2018-T2-1-030 Open Quaternary © 2020 The Author(s). This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International License (CC-BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. See http://creativecommons.org/licenses/by/4.0/. application/pdf |