Chester J Sands
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Explore the profile of Chester J Sands including associated specialties, affiliations and a list of published articles.
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22
Citations
133
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Recent Articles
1.
Lau S, Strugnell J, Sands C, Silva C, Wilson N
Mol Ecol
. 2023 Apr;
32(13):3382-3402.
PMID: 37009938
Understanding the drivers of evolutionary innovation provides a crucial perspective of how evolutionary processes unfold across taxa and ecological systems. It has been hypothesised that the Southern Ocean provided ecological...
2.
Bascur M, Morley S, Meredith M, Munoz-Ramirez C, Barnes D, Schloss I, et al.
PeerJ
. 2022 Jan;
9:e12679.
PMID: 35036155
The Western Antarctic Peninsula (WAP) is a hotspot for environmental change and has a strong environmental gradient from North to South. Here, for the first time we used adult individuals...
3.
Barnes D, Bell J, Bridges A, Ireland L, Howell K, Martin S, et al.
Biology (Basel)
. 2021 Dec;
10(12).
PMID: 34943254
Carbon-rich habitats can provide powerful climate mitigation if meaningful protection is put in place. We attempted to quantify this around the Tristan da Cunha archipelago Marine Protected Area. Its shallows...
4.
Lau S, Strugnell J, Sands C, Silva C, Wilson N
Ecol Evol
. 2021 Dec;
11(23):17428-17446.
PMID: 34938519
The drivers behind evolutionary innovations such as contrasting life histories and morphological change are central questions of evolutionary biology. However, the environmental and ecological contexts linked to evolutionary innovations are...
5.
Zwerschke N, Barnes D, Sands C
Glob Chang Biol
. 2021 Dec;
28(5):e7-e8.
PMID: 34927317
No abstract available.
6.
Sands C, McInnes S, Marley N, Goodall-Copestake W, Convey P, Linse K
Cladistics
. 2021 Dec;
24(6):861-871.
PMID: 34892876
Phylum Tardigrada consists of ∼1000 tiny, hardy metazoan species distributed throughout terrestrial, limno-terrestrial and oceanic habitats. Their phylogenetic status has been debated, with current evidence placing them in the Ecdysozoa....
7.
Zwerschke N, Sands C, Roman-Gonzalez A, Barnes D, Guzzi A, Jenkins S, et al.
Glob Chang Biol
. 2021 Oct;
28(1):8-20.
PMID: 34658117
Global warming is causing significant losses of marine ice around the polar regions. In Antarctica, the retreat of tidewater glaciers is opening up novel, low-energy habitats (fjords) that have the...
8.
Newsham K, Cox F, Sands C, Garnett M, Magan N, Horrocks C, et al.
Front Microbiol
. 2021 Jan;
11:615608.
PMID: 33391247
We report a previously undescribed member of the Helotiales that is superabundant in soils at two maritime Antarctic islands under Antarctic Hairgrass ( Desv.). High throughput sequencing showed that up...
9.
Bax N, Sands C, Gogarty B, Downey R, Moreau C, Moreno B, et al.
Glob Chang Biol
. 2020 Oct;
27(1):5-12.
PMID: 33064891
Precautionary conservation and cooperative global governance are needed to protect Antarctic blue carbon: the world's largest increasing natural form of carbon storage with high sequestration potential. As patterns of ice...
10.
Munoz-Ramirez C, Barnes D, Cardenas L, Meredith M, Morley S, Roman-Gonzalez A, et al.
R Soc Open Sci
. 2020 Oct;
7(9):200603.
PMID: 33047024
The Antarctic Circumpolar Current (ACC) dominates the open-ocean circulation of the Southern Ocean, and both isolates and connects the Southern Ocean biodiversity. However, the impact on biological processes of other...