SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2548183752> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2548183752 endingPage "1509" @default.
W2548183752 startingPage "1493" @default.
W2548183752 abstract "Abstract. Coccolithophores are an abundant phytoplankton group that exhibit remarkable diversity in their biology, ecology and calcitic exoskeletons (coccospheres). Their extensive fossil record is a testament to their important biogeochemical role and is a valuable archive of biotic responses to environmental change stretching back over 200 million years. However, to realise the full potential of this archive for (palaeo-)biology and biogeochemistry requires an understanding of the physiological processes that underpin coccosphere architecture. Using culturing experiments on four modern coccolithophore species (Calcidiscus leptoporus, Calcidiscus quadriperforatus, Helicosphaera carteri and Coccolithus braarudii) from three long-lived families, we investigate how coccosphere architecture responds to shifts from exponential (rapid cell division) to stationary (slowed cell division) growth phases as cell physiology reacts to nutrient depletion. These experiments reveal statistical differences in coccosphere size and the number of coccoliths per cell between these two growth phases, specifically that cells in exponential-phase growth are typically smaller with fewer coccoliths, whereas cells experiencing growth-limiting nutrient depletion have larger coccosphere sizes and greater numbers of coccoliths per cell. Although the exact numbers are species-specific, these growth-phase shifts in coccosphere geometry demonstrate that the core physiological responses of cells to nutrient depletion result in increased coccosphere sizes and coccoliths per cell across four different coccolithophore families (Calcidiscaceae, Coccolithaceae, Isochrysidaceae and Helicosphaeraceae), a representative diversity of this phytoplankton group. Building on this, the direct comparison of coccosphere geometries in modern and fossil coccolithophores enables a proxy for growth phase to be developed that can be used to investigate growth responses to environmental change throughout their long evolutionary history. Our data also show that changes in growth rate and coccoliths per cell associated with growth-phase shifts can substantially alter cellular calcite production. Coccosphere geometry is therefore a valuable tool for accessing growth information in the fossil record, providing unprecedented insights into the response of species to environmental change and the potential biogeochemical consequences." @default.
W2548183752 created "2016-11-11" @default.
W2548183752 creator A5006753594 @default.
W2548183752 creator A5034440884 @default.
W2548183752 creator A5038212956 @default.
W2548183752 creator A5046795421 @default.
W2548183752 creator A5082663017 @default.
W2548183752 date "2017-03-24" @default.
W2548183752 modified "2023-10-16" @default.
W2548183752 title "Physiology regulates the relationship between coccosphere geometry and growth phase in coccolithophores" @default.
W2548183752 cites W1040565711 @default.
W2548183752 cites W138655657 @default.
W2548183752 cites W1529225297 @default.
W2548183752 cites W1549686373 @default.
W2548183752 cites W1756242499 @default.
W2548183752 cites W1860765802 @default.
W2548183752 cites W1918972449 @default.
W2548183752 cites W1965422202 @default.
W2548183752 cites W1967693544 @default.
W2548183752 cites W1987070132 @default.
W2548183752 cites W1987731377 @default.
W2548183752 cites W1997242042 @default.
W2548183752 cites W2002951050 @default.
W2548183752 cites W2005812671 @default.
W2548183752 cites W2010091636 @default.
W2548183752 cites W2015484390 @default.
W2548183752 cites W2015891195 @default.
W2548183752 cites W2025082879 @default.
W2548183752 cites W2031637941 @default.
W2548183752 cites W2033735582 @default.
W2548183752 cites W2036677156 @default.
W2548183752 cites W2041076922 @default.
W2548183752 cites W2042200684 @default.
W2548183752 cites W2046153579 @default.
W2548183752 cites W2051130016 @default.
W2548183752 cites W2053990953 @default.
W2548183752 cites W2057485093 @default.
W2548183752 cites W2060080941 @default.
W2548183752 cites W2070450779 @default.
W2548183752 cites W2080028746 @default.
W2548183752 cites W2081218387 @default.
W2548183752 cites W2089114631 @default.
W2548183752 cites W2093098124 @default.
W2548183752 cites W2102344592 @default.
W2548183752 cites W2102853476 @default.
W2548183752 cites W2106217373 @default.
W2548183752 cites W2116906137 @default.
W2548183752 cites W2117504576 @default.
W2548183752 cites W2121682722 @default.
W2548183752 cites W2121888668 @default.
W2548183752 cites W2123139479 @default.
W2548183752 cites W2128515535 @default.
W2548183752 cites W2136814870 @default.
W2548183752 cites W2136868593 @default.
W2548183752 cites W2141403108 @default.
W2548183752 cites W2147092032 @default.
W2548183752 cites W2148461002 @default.
W2548183752 cites W2149244765 @default.
W2548183752 cites W2150022111 @default.
W2548183752 cites W2156069413 @default.
W2548183752 cites W2163117803 @default.
W2548183752 cites W2168541383 @default.
W2548183752 cites W2169177471 @default.
W2548183752 cites W2317692676 @default.
W2548183752 cites W2327526819 @default.
W2548183752 cites W2462571351 @default.
W2548183752 cites W2471043979 @default.
W2548183752 cites W2471302712 @default.
W2548183752 cites W4246593565 @default.
W2548183752 cites W4247486772 @default.
W2548183752 cites W489843 @default.
W2548183752 cites W642637748 @default.
W2548183752 cites W810489095 @default.
W2548183752 cites W830386604 @default.
W2548183752 cites W1983827850 @default.
W2548183752 doi "https://doi.org/10.5194/bg-14-1493-2017" @default.
W2548183752 hasPublicationYear "2017" @default.
W2548183752 type Work @default.
W2548183752 sameAs 2548183752 @default.
W2548183752 citedByCount "23" @default.
W2548183752 countsByYear W25481837522017 @default.
W2548183752 countsByYear W25481837522018 @default.
W2548183752 countsByYear W25481837522019 @default.
W2548183752 countsByYear W25481837522020 @default.
W2548183752 countsByYear W25481837522021 @default.
W2548183752 countsByYear W25481837522022 @default.
W2548183752 countsByYear W25481837522023 @default.
W2548183752 crossrefType "journal-article" @default.
W2548183752 hasAuthorship W2548183752A5006753594 @default.
W2548183752 hasAuthorship W2548183752A5034440884 @default.
W2548183752 hasAuthorship W2548183752A5038212956 @default.
W2548183752 hasAuthorship W2548183752A5046795421 @default.
W2548183752 hasAuthorship W2548183752A5082663017 @default.
W2548183752 hasBestOaLocation W25481837521 @default.
W2548183752 hasConcept C111368507 @default.
W2548183752 hasConcept C127313418 @default.
W2548183752 hasConcept C127413603 @default.
W2548183752 hasConcept C130309983 @default.