New insights on Antarctic gorgonians' age, growth and their potential as paleorecords

被引:14
作者
Martinez-Dios, Ariadna [1 ]
Dominguez-Carrio, Carlos [1 ]
Zapata-Guardiola, Rebeca [1 ]
Gill, Josep-Maria [1 ]
机构
[1] CSIC, ICM, Passeig Maritim Barceloneta 37-49, E-08003 Barcelona, Spain
关键词
Antarctic primnoids; Longevity; Growth rings; Radioisotope dating; Radial Growth Rates; DEEP-SEA CORALS; STRONTIUM CONCENTRATIONS; PRIMNOA-RESEDAEFORMIS; SKELETAL COMPOSITION; SEAWATER STRONTIUM; CLIMATE-CHANGE; BAMBOO CORALS; ROSS SEA; TEMPERATURE; PHYTOPLANKTON;
D O I
10.1016/j.dsr.2016.03.007
中图分类号
P7 [海洋学];
学科分类号
0707 ;
摘要
Antarctic benthic communities have long been regarded as relicts of the past, since they have developed in a very stable environment and are formed by slow-growing and extraordinary long-lived organisms. However, little is known about the life history traits of gorgonian species, which are considered key components of the Antarctic benthos. In this study, age, Radial Growth Rates (RGR) and skeletal composition of Thouarella variabilis, Fannyella abies and Fannyella rossii colonies (Octocorallia, Primnoidae) that inhabit Antarctic shelf waters were examined. The radioisotopes C-14 and Pb-210 used for dating revealed that these colonies are long-lived, with ages spanning from 50 to 1100 years, thus confirming the archaic character of the Antarctic ecosystem. Some RGR obtained are among the lowest rates ever reported for primnoid species and gorgonians as a whole, with Thouarella species showing rates of 5.08 mu m yr(-1). Growth ring deposition seemed to occur every 2-3 years on average, although this result cannot be confirmed. Irregularities in the growth rings could be observed under the Scanning Electron Microscope (SEM) as fluctuations in the skeletal composition, which may be indicative of changes in the environmental conditions, most possibly primary production. (C) 2016 Elsevier Ltd. All rights reserved.
引用
收藏
页码:57 / 67
页数:11
相关论文
共 74 条
[1]   Investigations of age and growth for three deep-sea corals from the Davidson Seamount off central California [J].
Andrews, AH ;
Cailliet, GM ;
Kerr, LA ;
Coale, KH ;
Lundstrom, C ;
DeVogelaere, AP .
COLD-WATER CORALS AND ECOSYSTEMS, 2005, :1021-1038
[2]   Age, growth and radiometric age validation of a deep-sea, habitat-forming gorgonian (Primnoa resedaeformis) from the Gulf of Alaska [J].
Andrews, AH ;
Cordes, EE ;
Mahoney, MM ;
Munk, K ;
Coale, KH ;
Cailliet, GM ;
Heifetz, J .
HYDROBIOLOGIA, 2002, 471 (1-3) :101-110
[3]  
[Anonymous], 2009, ANTARCTIC CLIMATE CH
[4]  
Appleby P.G., 1992, URANIUM SERIES DISEQ, P731
[5]   Growth rate variation and potential paleoceanographic proxies in Primnoa pacifica: Insights from high-resolution trace element microanalysis [J].
Aranha, Renita ;
Edinger, Evan ;
Layne, Graham ;
Piercey, Glenn .
DEEP-SEA RESEARCH PART II-TOPICAL STUDIES IN OCEANOGRAPHY, 2014, 99 :213-226
[6]  
ARNTZ WE, 1992, OLSEN INT S, P221
[7]  
Aronson RB, 2001, AM ZOOL, V41, P27, DOI 10.1668/0003-1569(2001)041[0027:GCCATO]2.0.CO
[8]  
2
[9]   Climate change and invasibility of the antarctic benthos [J].
Aronson, Richard B. ;
Thatje, Sven ;
Clarke, Andrew ;
Peck, Lloyd S. ;
Blake, Daniel B. ;
Wilga, Cheryl D. ;
Seibel, Brad A. .
ANNUAL REVIEW OF ECOLOGY EVOLUTION AND SYSTEMATICS, 2007, 38 :129-154
[10]  
Arrigo K.R., 2008, J GEOPHYS RES, V113