Oceanic-Scale Species Diversity of Living Benthic Foraminifera: Insights into Neogene Diversity, Community Structure, Species Duration, and Biogeography

IF 0.9 4区地球科学 Q4 PALEONTOLOGY

Journal of Foraminiferal Research Pub Date : 2023-07-01 DOI:10.2113/gsjfr.53.3.256

M. Buzas, L. Hayek, S. Culver, J. Murray, Daniel O. B. Jones

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Abstract

Within-habitat (α) diversity of living benthic foraminifera in the Atlantic Basin increases as latitude decreases and generally increases with depth from shelf to abyss. Total populations (live + dead) show the same pattern and indicate that species are becoming more widespread with increasing water depth. Thus, within-habitat diversity increases with depth while regional (or γ) diversity is greater on the shelf (more communities). Community structure analysis indicates stasis and growth in shallower areas with stasis or decline in the abyss. The latitudinal gradient has existed for ca. 34 Ma; lower latitude deeper habitats have the longest species durations. For living populations an inverse relationship between density and diversity suggests scarcity of food is not sufficient to decrease diversity through extinction. For shallower-dwelling species, variability of solar energy can explain the latitudinal gradient. For deep-sea species, energy transfer from the surface, along with environmental stability over vast expanses, are plausible explanations for high diversity.

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海洋尺度底栖有孔虫物种多样性:新近纪多样性、群落结构、物种持续时间和生物地理学的见解

大西洋盆地底栖有孔虫生境内(α)多样性随纬度的降低而增加，一般随陆架至深渊的深度而增加。总种群(活的+死的)显示出相同的模式，并表明随着水深的增加，物种变得更加广泛。因此，生境内多样性随深度增加而增加，而大陆架上的区域(或γ)多样性更大(群落更多)。群落结构分析表明，浅层停滞和增长，深层停滞或下降。纬向梯度已存在约34 Ma;低纬度较深的栖息地有最长的物种存续期。对于现存种群来说，密度和多样性之间的反比关系表明，食物匮乏不足以通过灭绝来减少多样性。对于居住较浅的物种，太阳能的变率可以解释纬度梯度。对于深海物种来说，来自表面的能量转移，以及广阔地区的环境稳定性，是高多样性的合理解释。

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来源期刊

Journal of Foraminiferal Research 地学-古生物学

CiteScore

2.10

自引率

9.10%

发文量

审稿时长

>12 weeks

期刊介绍： JFR publishes original papers of international interest dealing with the Foraminifera and allied groups of organisms. Review articles are encouraged.