Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change
Global warming and acidification of the global ocean are two important manifestations of the ongoing climate change. To characterize their joint impact on Vibrio adaptation and fitness, we analyzed the temperature-dependent adaptation of Vibrioharveyi at different pHs (7.0, 7.5, 8.0, 8.3 and 8.5) th...
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Multidisciplinary Digital Publishing Institute
2023
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| Online Access: | https://doi.org/10.3390/microorganisms11041075 |
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ftmdpi:oai:mdpi.com:/2076-2607/11/4/1075/ 2023-08-20T04:09:00+02:00 Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change Kaan Gundogdu Ander Orus Iturriza Maite Orruño Itxaso Montánchez Harkaitz Eguiraun Iciar Martinez Inés Arana Vladimir R. Kaberdin agris 2023-04-20 application/pdf https://doi.org/10.3390/microorganisms11041075 EN eng Multidisciplinary Digital Publishing Institute Environmental Microbiology https://dx.doi.org/10.3390/microorganisms11041075 https://creativecommons.org/licenses/by/4.0/ Microorganisms; Volume 11; Issue 4; Pages: 1075 climate change ocean acidification Vibrio survival coccoid-like cells adaptation strategies Text 2023 ftmdpi https://doi.org/10.3390/microorganisms11041075 2023-08-01T09:46:02Z Global warming and acidification of the global ocean are two important manifestations of the ongoing climate change. To characterize their joint impact on Vibrio adaptation and fitness, we analyzed the temperature-dependent adaptation of Vibrioharveyi at different pHs (7.0, 7.5, 8.0, 8.3 and 8.5) that mimic the pH of the world ocean in the past, present and future. Comparison of V. harveyi growth at 20, 25 and 30 °C show that higher temperature per se facilitates the logarithmic growth of V. harveyi in nutrient-rich environments in a pH-dependent manner. Further survival tests carried out in artificial seawater for 35 days revealed that cell culturability declined significantly upon incubation at 25 °C and 30 °C but not at 20 °C. Moreover, although acidification displayed a negative impact on cell culturability at 25 °C, it appeared to play a minor role at 30 °C, suggesting that elevated temperature, rather than pH, was the key player in the observed reduction of cell culturability. In addition, analyses of the stressed cell morphology and size distribution by epifluorescent microscopy indicates that V. harveyi likely exploits different adaptation strategies (e.g., acquisition of coccoid-like morphology) whose roles might differ depending on the temperature–pH combination. Text Ocean acidification MDPI Open Access Publishing Microorganisms 11 4 1075 |
| institution |
Open Polar |
| collection |
MDPI Open Access Publishing |
| op_collection_id |
ftmdpi |
| language |
English |
| topic |
climate change ocean acidification Vibrio survival coccoid-like cells adaptation strategies |
| spellingShingle |
climate change ocean acidification Vibrio survival coccoid-like cells adaptation strategies Kaan Gundogdu Ander Orus Iturriza Maite Orruño Itxaso Montánchez Harkaitz Eguiraun Iciar Martinez Inés Arana Vladimir R. Kaberdin Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change |
| topic_facet |
climate change ocean acidification Vibrio survival coccoid-like cells adaptation strategies |
| description |
Global warming and acidification of the global ocean are two important manifestations of the ongoing climate change. To characterize their joint impact on Vibrio adaptation and fitness, we analyzed the temperature-dependent adaptation of Vibrioharveyi at different pHs (7.0, 7.5, 8.0, 8.3 and 8.5) that mimic the pH of the world ocean in the past, present and future. Comparison of V. harveyi growth at 20, 25 and 30 °C show that higher temperature per se facilitates the logarithmic growth of V. harveyi in nutrient-rich environments in a pH-dependent manner. Further survival tests carried out in artificial seawater for 35 days revealed that cell culturability declined significantly upon incubation at 25 °C and 30 °C but not at 20 °C. Moreover, although acidification displayed a negative impact on cell culturability at 25 °C, it appeared to play a minor role at 30 °C, suggesting that elevated temperature, rather than pH, was the key player in the observed reduction of cell culturability. In addition, analyses of the stressed cell morphology and size distribution by epifluorescent microscopy indicates that V. harveyi likely exploits different adaptation strategies (e.g., acquisition of coccoid-like morphology) whose roles might differ depending on the temperature–pH combination. |
| format |
Text |
| author |
Kaan Gundogdu Ander Orus Iturriza Maite Orruño Itxaso Montánchez Harkaitz Eguiraun Iciar Martinez Inés Arana Vladimir R. Kaberdin |
| author_facet |
Kaan Gundogdu Ander Orus Iturriza Maite Orruño Itxaso Montánchez Harkaitz Eguiraun Iciar Martinez Inés Arana Vladimir R. Kaberdin |
| author_sort |
Kaan Gundogdu |
| title |
Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change |
| title_short |
Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change |
| title_full |
Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change |
| title_fullStr |
Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change |
| title_full_unstemmed |
Addressing the Joint Impact of Temperature and pH on Vibrio harveyi Adaptation in the Time of Climate Change |
| title_sort |
addressing the joint impact of temperature and ph on vibrio harveyi adaptation in the time of climate change |
| publisher |
Multidisciplinary Digital Publishing Institute |
| publishDate |
2023 |
| url |
https://doi.org/10.3390/microorganisms11041075 |
| op_coverage |
agris |
| genre |
Ocean acidification |
| genre_facet |
Ocean acidification |
| op_source |
Microorganisms; Volume 11; Issue 4; Pages: 1075 |
| op_relation |
Environmental Microbiology https://dx.doi.org/10.3390/microorganisms11041075 |
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https://creativecommons.org/licenses/by/4.0/ |
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https://doi.org/10.3390/microorganisms11041075 |
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Microorganisms |
| container_volume |
11 |
| container_issue |
4 |
| container_start_page |
1075 |
| _version_ |
1774721635089121280 |