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Autori principali: Kohler, Tyler J, Hawes, Ian, Howkins, Adrian, Zeglin, Lydia H, Gooseff, Mike N, McKnight, Diane M
Natura: Artículo científico
Lingua:en
Pubblicazione: Journal of phycology 2026
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/41761901/
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author Kohler, Tyler J
Hawes, Ian
Howkins, Adrian
Zeglin, Lydia H
Gooseff, Mike N
McKnight, Diane M
author_facet Kohler, Tyler J
Hawes, Ian
Howkins, Adrian
Zeglin, Lydia H
Gooseff, Mike N
McKnight, Diane M
Kohler, Tyler J
Hawes, Ian
Howkins, Adrian
Zeglin, Lydia H
Gooseff, Mike N
McKnight, Diane M
collection PubMed - marine biology
contents Cold comfort for change: Stream mats as biological indicators of ecosystem processes in the McMurdo Dry Valleys, Antarctica. Kohler, Tyler J Hawes, Ian Howkins, Adrian Zeglin, Lydia H Gooseff, Mike N McKnight, Diane M Antarctic Regions Ecosystem Rivers Diatoms Cyanobacteria Climate Change Ice Cover Chlorophyta Glacier-fed streams (GFSs) make ideal systems for studying climate-related changes. Some of the best-studied GFSs are found in the McMurdo Dry Valleys (MDVs) of Antarctica, one of the Earth's coldest and driest deserts. Despite their harsh and isolated nature, MDV GFSs represent an oasis of life in a landscape visually devoid of it, with biomass dominated by photosynthetic microorganisms (including chlorophytes, cyanobacteria, and diatoms) and manifesting as benthic "mats." Mats form the basis of MDV GFS ecosystems, drive biogeochemical cycles, and harbor high proportions of the regional biodiversity. Furthermore, the biomass and composition of these mats respond to environmental fluctuations, making them ideal bioindicators for ecological monitoring. In this review, we have (1) distinguished the three major photosynthetic mat types by their taxonomic structure, habitat use, and elemental composition; (2) demonstrated how mat type distribution, coverage, and biomass are dictated by a combination of geomorphology, suspended sediment loads, and hydrology, among other factors; (3) introduced MDV diatoms as model organisms for investigating mat community assembly; and (4) speculated on how the biomass, community structure, and functional process rates of different mat types will change in a warmer and more connected world. Synthesizing this information, we suggest future opportunities for research, with the most promising avenues centering upon questions, methodologies, and scales that would have been inconceivable for the Heroic Age explorers that discovered them, ranging from studies of gene expression to cataloging changes in mat abundance by satellite.
format Artículo científico
id pubmed_41761901
institution PubMed
language en
publishDate 2026
publisher Journal of phycology
record_format pubmed
spellingShingle Cold comfort for change: Stream mats as biological indicators of ecosystem processes in the McMurdo Dry Valleys, Antarctica.
Kohler, Tyler J
Hawes, Ian
Howkins, Adrian
Zeglin, Lydia H
Gooseff, Mike N
McKnight, Diane M
Antarctic Regions
Ecosystem
Rivers
Diatoms
Cyanobacteria
Climate Change
Ice Cover
Chlorophyta
Cold comfort for change: Stream mats as biological indicators of ecosystem processes in the McMurdo Dry Valleys, Antarctica. Kohler, Tyler J Hawes, Ian Howkins, Adrian Zeglin, Lydia H Gooseff, Mike N McKnight, Diane M Antarctic Regions Ecosystem Rivers Diatoms Cyanobacteria Climate Change Ice Cover Chlorophyta Glacier-fed streams (GFSs) make ideal systems for studying climate-related changes. Some of the best-studied GFSs are found in the McMurdo Dry Valleys (MDVs) of Antarctica, one of the Earth's coldest and driest deserts. Despite their harsh and isolated nature, MDV GFSs represent an oasis of life in a landscape visually devoid of it, with biomass dominated by photosynthetic microorganisms (including chlorophytes, cyanobacteria, and diatoms) and manifesting as benthic "mats." Mats form the basis of MDV GFS ecosystems, drive biogeochemical cycles, and harbor high proportions of the regional biodiversity. Furthermore, the biomass and composition of these mats respond to environmental fluctuations, making them ideal bioindicators for ecological monitoring. In this review, we have (1) distinguished the three major photosynthetic mat types by their taxonomic structure, habitat use, and elemental composition; (2) demonstrated how mat type distribution, coverage, and biomass are dictated by a combination of geomorphology, suspended sediment loads, and hydrology, among other factors; (3) introduced MDV diatoms as model organisms for investigating mat community assembly; and (4) speculated on how the biomass, community structure, and functional process rates of different mat types will change in a warmer and more connected world. Synthesizing this information, we suggest future opportunities for research, with the most promising avenues centering upon questions, methodologies, and scales that would have been inconceivable for the Heroic Age explorers that discovered them, ranging from studies of gene expression to cataloging changes in mat abundance by satellite.
title Cold comfort for change: Stream mats as biological indicators of ecosystem processes in the McMurdo Dry Valleys, Antarctica.
topic Antarctic Regions
Ecosystem
Rivers
Diatoms
Cyanobacteria
Climate Change
Ice Cover
Chlorophyta
url https://pubmed.ncbi.nlm.nih.gov/41761901/