FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1996886475> ?p ?o ?g. }

• W1996886475 endingPage "1123" @default.
• W1996886475 startingPage "1095" @default.
• W1996886475 abstract "Because environmental conditions within a given basin are different for each season and at different water depth, knowledge of the life history and depth distribution of target species is important for environmental and palaeoenvironmental interpretations based on ostracod species assemblages and/or the geochemical compositions of their valves. In order to determine the distribution of species with depth as well as the life history of species from Lake Geneva, a one-year sampling campaign of living ostracods was conducted at five sites (2, 5, 13, 33 and 70 m water depth) on a monthly basis in the Petit-Lac (western basin of Lake Geneva, Switzerland). Based on the results, the different species can be classified into three groups. Littoral taxa are found at 2 and 5 m water depth and include, in decreasing numbers of individuals, Cypridopsis vidua (O. F. Müller, 1776), Pseudocandona compressa (Koch, 1838), Limnocythere inopinata (Baird, 1843), Herpetocypris reptans (Baird, 1835), Potamocypris smaragdina (Vávra, 1891), Potamocypris similis (G. W. Müller, 1912), Plesiocypridopsis newtoni (Brady & Robertson, 1870), Prionocypris zenkeri (Chyzer & Toth, 1858) and Ilyocypris sp. Brady & Norman, 1889. Sublittoral species are found in a majority at 13 m water depth and to a lesser extend at 33 m water depth and include, in decreasing numbers of individuals, Fabaeformiscandona caudata (Kaufmann, 1900), Limnocytherina sanctipatricii , Candona candida (O. F. Müller, 1776) and Isocypris beauchampi (Paris, 1920). Profundal species are found equally at 13, 33 and 70 m water depth and includes, in decreasing numbers of individuals, Cytherissa lacustris (Sars, 1863), Candona neglecta Sars, 1887 and Cypria lacustris Lilljeborg, 1890. The occurrence of Limnocytherina sanctipatricii (Brady & Robertson, 1869) is restricted from late winter to late spring when temperatures are low, while C. vidua , L. inopinata , P. smaragdina , P. similis , P. newtoni and Ilyocypris sp. occur predominantly from spring to early autumn when temperatures are high. Individuals of C. neglecta , C. candida , F. caudata , P. compressa , C. lacustris , H. reptans and Cp. lacustris occur throughout the year with juveniles and adults occurring during the same period ( C. neglecta at 70 m, C. lacustris at 13, 33 and 70 m, and H. reptans at 2, 5 and 13 m water depth) or with juveniles occurring during a different period of the year than adults ( C. neglecta at 13 and 33 m and C. candida , F. caudata and P. compressa at their respective depth of occurrence). Among the environmental parameters investigated, an estimate of the relationship between ostracod autoecology and environmental parameters suggests that in the Petit-Lac: (i) water temperature and substrate characteristics are important factors controlling the distribution of species with depth, (ii) water temperature is also important for determining the timing of species development and, hence, its specific life history, and (iii) water oxygen and sedimentary organic matter content is less important compared to the other environmental parameter monitored." @default.
• W1996886475 created "2016-06-24" @default.
• W1996886475 creator A5008446234 @default.
• W1996886475 creator A5013438964 @default.
• W1996886475 date "2014-01-01" @default.
• W1996886475 modified "2023-10-16" @default.
• W1996886475 title "Life histories and distribution of ostracods with depth in western Lake Geneva (Petit-Lac), Switzerland: a reconnaissance study" @default.
• W1996886475 cites W1487540006 @default.
• W1996886475 cites W153018986 @default.
• W1996886475 cites W158900357 @default.
• W1996886475 cites W1737019580 @default.
• W1996886475 cites W1964426228 @default.
• W1996886475 cites W1966064516 @default.
• W1996886475 cites W1975312613 @default.
• W1996886475 cites W1977406708 @default.
• W1996886475 cites W1980078407 @default.
• W1996886475 cites W1982953465 @default.
• W1996886475 cites W1989590306 @default.
• W1996886475 cites W1998999878 @default.
• W1996886475 cites W1999969012 @default.
• W1996886475 cites W2003409354 @default.
• W1996886475 cites W2012510975 @default.
• W1996886475 cites W2013428409 @default.
• W1996886475 cites W2031790426 @default.
• W1996886475 cites W2032875324 @default.
• W1996886475 cites W2040816348 @default.
• W1996886475 cites W2050092117 @default.
• W1996886475 cites W2055387345 @default.
• W1996886475 cites W2055441629 @default.
• W1996886475 cites W2057229098 @default.
• W1996886475 cites W2066636062 @default.
• W1996886475 cites W2079789818 @default.
• W1996886475 cites W2087150499 @default.
• W1996886475 cites W2103848622 @default.
• W1996886475 cites W2130878980 @default.
• W1996886475 cites W2152211452 @default.
• W1996886475 cites W2163903928 @default.
• W1996886475 cites W224134639 @default.
• W1996886475 cites W2521135505 @default.
• W1996886475 cites W2911528385 @default.
• W1996886475 cites W4229502121 @default.
• W1996886475 cites W4229889324 @default.
• W1996886475 cites W4241943209 @default.
• W1996886475 cites W4249240317 @default.
• W1996886475 cites W4252132542 @default.
• W1996886475 doi "https://doi.org/10.1163/15685403-00003344" @default.
• W1996886475 hasPublicationYear "2014" @default.
• W1996886475 type Work @default.
• W1996886475 sameAs 1996886475 @default.
• W1996886475 citedByCount "4" @default.
• W1996886475 countsByYear W19968864752014 @default.
• W1996886475 countsByYear W19968864752021 @default.
• W1996886475 countsByYear W19968864752022 @default.
• W1996886475 crossrefType "journal-article" @default.
• W1996886475 hasAuthorship W1996886475A5008446234 @default.
• W1996886475 hasAuthorship W1996886475A5013438964 @default.
• W1996886475 hasConcept C109007969 @default.
• W1996886475 hasConcept C110251725 @default.
• W1996886475 hasConcept C151730666 @default.
• W1996886475 hasConcept C186632785 @default.
• W1996886475 hasConcept C18903297 @default.
• W1996886475 hasConcept C205649164 @default.
• W1996886475 hasConcept C2776077807 @default.
• W1996886475 hasConcept C2779770362 @default.
• W1996886475 hasConcept C2991714712 @default.
• W1996886475 hasConcept C34667930 @default.
• W1996886475 hasConcept C81662871 @default.
• W1996886475 hasConcept C84766238 @default.
• W1996886475 hasConcept C86803240 @default.
• W1996886475 hasConceptScore W1996886475C109007969 @default.
• W1996886475 hasConceptScore W1996886475C110251725 @default.
• W1996886475 hasConceptScore W1996886475C151730666 @default.
• W1996886475 hasConceptScore W1996886475C186632785 @default.
• W1996886475 hasConceptScore W1996886475C18903297 @default.
• W1996886475 hasConceptScore W1996886475C205649164 @default.
• W1996886475 hasConceptScore W1996886475C2776077807 @default.
• W1996886475 hasConceptScore W1996886475C2779770362 @default.
• W1996886475 hasConceptScore W1996886475C2991714712 @default.
• W1996886475 hasConceptScore W1996886475C34667930 @default.
• W1996886475 hasConceptScore W1996886475C81662871 @default.
• W1996886475 hasConceptScore W1996886475C84766238 @default.
• W1996886475 hasConceptScore W1996886475C86803240 @default.
• W1996886475 hasIssue "8-9" @default.
• W1996886475 hasLocation W19968864751 @default.
• W1996886475 hasOpenAccess W1996886475 @default.
• W1996886475 hasPrimaryLocation W19968864751 @default.
• W1996886475 hasRelatedWork W1847632896 @default.
• W1996886475 hasRelatedWork W1971859920 @default.
• W1996886475 hasRelatedWork W1982259755 @default.
• W1996886475 hasRelatedWork W1996886475 @default.
• W1996886475 hasRelatedWork W2029273245 @default.
• W1996886475 hasRelatedWork W2058176417 @default.
• W1996886475 hasRelatedWork W2061495403 @default.
• W1996886475 hasRelatedWork W2530576166 @default.
• W1996886475 hasRelatedWork W2531478560 @default.
• W1996886475 hasRelatedWork W3006431212 @default.
• W1996886475 hasVolume "87" @default.
• W1996886475 isParatext "false" @default.

• next