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Literature DB >> 26977063

Ecogeochemistry potential in deep time biodiversity illustrated using a modern deep-water case study.

Clive N Trueman¹, Ming-Tsung Chung², Diana Shores².

Abstract

The fossil record provides the only direct evidence of temporal trends in biodiversity over evolutionary timescales. Studies of biodiversity using the fossil record are, however, largely limited to discussions of taxonomic and/or morphological diversity. Behavioural and physiological traits that are likely to be under strong selection are largely obscured from the body fossil record. Similar problems exist in modern ecosystems where animals are difficult to access. In this review, we illustrate some of the common conceptual and methodological ground shared between those studying behavioural ecology in deep time and in inaccessible modern ecosystems. We discuss emerging ecogeochemical methods used to explore population connectivity and genetic drift, life-history traits and field metabolic rate and discuss some of the additional problems associated with applying these methods in deep time.

Keywords: biomineral; isotope; palaeoecology; trace element; trait

Mesh：

Substances：
Trace Elements

Year: 2016 PMID： 26977063 PMCID： PMC4810816 DOI： 10.1098/rstb.2015.0223

Source DB: PubMed Journal: Philos Trans R Soc Lond B Biol Sci ISSN： 0962-8436 Impact factor: 6.237

15 in total

Review 1. Energetics of free-ranging mammals, reptiles, and birds.

Authors: K A Nagy; I A Girard; T K Brown
Journal: Annu Rev Nutr Date: 1999 Impact factor: 11.848

2. Migration of a Late Cretaceous fish.

Authors: Scott J Carpenter; J Mark Erickson; F D Holland
Journal: Nature Date: 2003-05-01 Impact factor: 49.962

3. Lowland-upland migration of sauropod dinosaurs during the Late Jurassic epoch.

Authors: Henry C Fricke; Justin Hencecroth; Marie E Hoerner
Journal: Nature Date: 2011-10-26 Impact factor: 49.962

4. Long-term changes in deep-water fish populations in the northeast Atlantic: a deeper reaching effect of fisheries?

Authors: D M Bailey; M A Collins; J D M Gordon; A F Zuur; I G Priede
Journal: Proc Biol Sci Date: 2009-03-11 Impact factor: 5.349

5. A general model for the origin of allometric scaling laws in biology.

Authors: G B West; J H Brown; B J Enquist
Journal: Science Date: 1997-04-04 Impact factor: 47.728

6. Trophic interactions of fish communities at midwater depths enhance long-term carbon storage and benthic production on continental slopes.

Authors: C N Trueman; G Johnston; B O'Hea; K M MacKenzie
Journal: Proc Biol Sci Date: 2014-07-22 Impact factor: 5.349

Ecogeochemistry potential in deep time biodiversity illustrated using a modern deep-water case study.

Review 1. Energetics of free-ranging mammals, reptiles, and birds.

2. Migration of a Late Cretaceous fish.

3. Lowland-upland migration of sauropod dinosaurs during the Late Jurassic epoch.

4. Long-term changes in deep-water fish populations in the northeast Atlantic: a deeper reaching effect of fisheries?

5. A general model for the origin of allometric scaling laws in biology.

6. Trophic interactions of fish communities at midwater depths enhance long-term carbon storage and benthic production on continental slopes.

7. Are there physiological and biochemical adaptations of metabolism in deep-sea animals?

8. Locations of marine animals revealed by carbon isotopes.

9. Listening in on the past: what can otolith δ18O values really tell us about the environmental history of fishes?

10. The relationship between body mass and field metabolic rate among individual birds and mammals.

1. The challenges to inferring the regulators of biodiversity in deep time.

2. Field metabolic rates of teleost fishes are recorded in otolith carbonate.