Ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass Zostera marina
The impact of global warming on the metabolic state of a species may be examined by either measuring physiological rates across a latitudinal gradient or by assessing short-term responses under experimentally controlled temperature regimes. The combination of the two approaches is seldom used but it...
| Published in: | Functional Ecology |
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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Wiley
2020
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| Online Access: | https://doi.org/10.1111/1365-2435.13576 https://researchportal.murdoch.edu.au/esploro/outputs/journalArticle/Ocean-warming-increases-the-nitrogen-demand/991005560325007891 |
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ftmurdochunivall:oai:alma.61MUN_INST:11139983760007891 2024-09-15T18:14:31+00:00 Ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass Zostera marina Alexandre, Ana Quinta, Raquel Hill, Paul W. Jones, Davey L. Santos, Rui 2020 11 https://doi.org/10.1111/1365-2435.13576 https://researchportal.murdoch.edu.au/esploro/outputs/journalArticle/Ocean-warming-increases-the-nitrogen-demand/991005560325007891 eng eng Wiley ispartof: Functional ecology spage 1325 epage 1335 issue 7 vol 34 doi:10.1111/1365-2435.13576 WOS:000536991300001 0269-8463 1365-2435 991005560325007891 https://researchportal.murdoch.edu.au/esploro/outputs/journalArticle/Ocean-warming-increases-the-nitrogen-demand/991005560325007891 alma:61MUN_INST/bibs/991005560325007891 © 2020 British Ecological Society Ecology Environmental Sciences & Ecology Life Sciences & Biomedicine Science & Technology text Article 2020 ftmurdochunivall https://doi.org/10.1111/1365-2435.13576 2024-08-15T00:52:48Z The impact of global warming on the metabolic state of a species may be examined by either measuring physiological rates across a latitudinal gradient or by assessing short-term responses under experimentally controlled temperature regimes. The combination of the two approaches is seldom used but it provides valuable information on an organism's responses to temperature at broader temporal and spatial scales while allowing the isolation of temperature effects from other environmental variables. Here we used both approaches to assess the warming effects on the total acquisition of dissolved inorganic nitrogen (DIN; nitrate, ammonium) and organic N (DON; amino acids, peptides) by the globally widespread seagrass Zostera marina. DIN and DON uptake rates were measured in plants from three sites covering the species latitudinal distribution in Europe (Iceland, UK and Portugal). The responses of DIN and DON uptake rates of plants from the middle latitude (UK) to a latitudinal range of temperatures (8, 12 and 17 degrees C) were also measured. We further examined the microbial uptake of DON along the latitudinal distribution and whether temperature is the main driver of that uptake. Our results showed that warming greatly increased the total N uptake by Z. marina and also the relative contribution of DON to total N acquisition. The microbial uptake of DON increased towards warmer latitudes, and temperature was the main driver of these observations. Ocean warming will increase the nitrogen demand of Z. marina and this demand may be met by an increasing uptake of organic nitrogen forms. This indicates that Z. marina, and probably other seagrass species, can be winners under global change as nitrogen uptake capacity will not limit growth driven by increased photosynthetic assimilation of CO2. A free Plain Language Summary can be found within the Supporting Information of this article. Article in Journal/Newspaper Iceland Murdoch University Research Portal Functional Ecology 34 7 1325 1335 |
| institution |
Open Polar |
| collection |
Murdoch University Research Portal |
| op_collection_id |
ftmurdochunivall |
| language |
English |
| topic |
Ecology Environmental Sciences & Ecology Life Sciences & Biomedicine Science & Technology |
| spellingShingle |
Ecology Environmental Sciences & Ecology Life Sciences & Biomedicine Science & Technology Alexandre, Ana Quinta, Raquel Hill, Paul W. Jones, Davey L. Santos, Rui Ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass Zostera marina |
| topic_facet |
Ecology Environmental Sciences & Ecology Life Sciences & Biomedicine Science & Technology |
| description |
The impact of global warming on the metabolic state of a species may be examined by either measuring physiological rates across a latitudinal gradient or by assessing short-term responses under experimentally controlled temperature regimes. The combination of the two approaches is seldom used but it provides valuable information on an organism's responses to temperature at broader temporal and spatial scales while allowing the isolation of temperature effects from other environmental variables. Here we used both approaches to assess the warming effects on the total acquisition of dissolved inorganic nitrogen (DIN; nitrate, ammonium) and organic N (DON; amino acids, peptides) by the globally widespread seagrass Zostera marina. DIN and DON uptake rates were measured in plants from three sites covering the species latitudinal distribution in Europe (Iceland, UK and Portugal). The responses of DIN and DON uptake rates of plants from the middle latitude (UK) to a latitudinal range of temperatures (8, 12 and 17 degrees C) were also measured. We further examined the microbial uptake of DON along the latitudinal distribution and whether temperature is the main driver of that uptake. Our results showed that warming greatly increased the total N uptake by Z. marina and also the relative contribution of DON to total N acquisition. The microbial uptake of DON increased towards warmer latitudes, and temperature was the main driver of these observations. Ocean warming will increase the nitrogen demand of Z. marina and this demand may be met by an increasing uptake of organic nitrogen forms. This indicates that Z. marina, and probably other seagrass species, can be winners under global change as nitrogen uptake capacity will not limit growth driven by increased photosynthetic assimilation of CO2. A free Plain Language Summary can be found within the Supporting Information of this article. |
| format |
Article in Journal/Newspaper |
| author |
Alexandre, Ana Quinta, Raquel Hill, Paul W. Jones, Davey L. Santos, Rui |
| author_facet |
Alexandre, Ana Quinta, Raquel Hill, Paul W. Jones, Davey L. Santos, Rui |
| author_sort |
Alexandre, Ana |
| title |
Ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass Zostera marina |
| title_short |
Ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass Zostera marina |
| title_full |
Ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass Zostera marina |
| title_fullStr |
Ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass Zostera marina |
| title_full_unstemmed |
Ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass Zostera marina |
| title_sort |
ocean warming increases the nitrogen demand and the uptake of organic nitrogen of the globally distributed seagrass zostera marina |
| publisher |
Wiley |
| publishDate |
2020 |
| url |
https://doi.org/10.1111/1365-2435.13576 https://researchportal.murdoch.edu.au/esploro/outputs/journalArticle/Ocean-warming-increases-the-nitrogen-demand/991005560325007891 |
| genre |
Iceland |
| genre_facet |
Iceland |
| op_relation |
ispartof: Functional ecology spage 1325 epage 1335 issue 7 vol 34 doi:10.1111/1365-2435.13576 WOS:000536991300001 0269-8463 1365-2435 991005560325007891 https://researchportal.murdoch.edu.au/esploro/outputs/journalArticle/Ocean-warming-increases-the-nitrogen-demand/991005560325007891 alma:61MUN_INST/bibs/991005560325007891 |
| op_rights |
© 2020 British Ecological Society |
| op_doi |
https://doi.org/10.1111/1365-2435.13576 |
| container_title |
Functional Ecology |
| container_volume |
34 |
| container_issue |
7 |
| container_start_page |
1325 |
| op_container_end_page |
1335 |
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1810452280837668864 |