SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2013114479> ?p ?o ?g. }

Showing items 1 to 76 of 76 with 100 items per page.

W2013114479 endingPage "49" @default.
W2013114479 startingPage "38" @default.
W2013114479 abstract "One of the effects of climate change can be the change in geographic distribution and intensity of the transmission of vector-borne diseases such as malaria. Given the most conservative estimate of change, these diseases are expected to occur, compared with the past and presence, at higher latitudes and altitudes. A slight rise in ambient temperature and rainfall can extend the duration of the season in which mosquito vectors are transmitting the causative agents of malaria. The parasites that they transmit usually benefit from increased temperatures, as both their reproduction and development are then accelerated, too. Thus, it seemed prudent to examine potential effects on the seasonal transmission gate due to the predicted climate changes. Lower Saxony (north-western Germany) is a former malaria region with highest incidences of Anopheles atroparvus and tertian malaria along the coastal zones before malaria had finally become extinct in the early 1950s. Nevertheless, the Anopheles mosquitoes which transmit the malaria pathogens have still been present in Lower Saxony up to now. This together with the climate change-related implications gave reason to investigate whether a new autochthonous transmission could take place if the malaria pathogen is introduced again in Lower Saxony. Thus, the spatial and temporal structure of temperature-driven malaria transmissions was investigated using the basic reproduction rate (R0) to model and geostatistically map areas at risk for an outbreak of tertian malaria due to measured (1947–1960, 1961–1990, 1985–2004) and predicted (2020, 2060, 2100, each best case and worst case scenario) air temperatures. The respective risk maps show that the gate of potential tertian malaria transmissions in terms of R0 could be expected to increase from 2 months in the past to 6 months in the future in Lower Saxony. Past and recent findings of A. atroparvus coincide with those regions where the potential malaria transmission gate accounts for 4 months in 2060 (best case scenario) and for 6 months in 2100 (worst case scenario) and, in addition, where tertian malaria occurred up to the 1950s. The geostatistically estimated malaria risk maps were intersected by a map on ecological land units. This approach made an ecoregionalisation of the risk estimation possible. r 2008 Elsevier GmbH. All rights reserved." @default.
W2013114479 created "2016-06-24" @default.
W2013114479 creator A5006471301 @default.
W2013114479 creator A5072980953 @default.
W2013114479 date "2008-09-01" @default.
W2013114479 modified "2023-09-25" @default.
W2013114479 title "Mapping the potential temperature-dependent tertian malaria transmission within the ecoregions of Lower Saxony (Germany)" @default.
W2013114479 cites W1519918296 @default.
W2013114479 cites W1557261629 @default.
W2013114479 cites W1680499948 @default.
W2013114479 cites W1980935397 @default.
W2013114479 cites W1992964411 @default.
W2013114479 cites W2003771070 @default.
W2013114479 cites W2009245658 @default.
W2013114479 cites W2032904229 @default.
W2013114479 cites W2034557050 @default.
W2013114479 cites W2037419102 @default.
W2013114479 cites W2042437789 @default.
W2013114479 cites W2048379351 @default.
W2013114479 cites W2089491964 @default.
W2013114479 cites W2116721397 @default.
W2013114479 cites W2129159859 @default.
W2013114479 cites W2142673846 @default.
W2013114479 cites W2143138689 @default.
W2013114479 cites W2156360666 @default.
W2013114479 cites W2159582058 @default.
W2013114479 cites W2190698899 @default.
W2013114479 cites W2420879496 @default.
W2013114479 cites W2526376194 @default.
W2013114479 doi "https://doi.org/10.1016/j.ijmm.2008.05.003" @default.
W2013114479 hasPublicationYear "2008" @default.
W2013114479 type Work @default.
W2013114479 sameAs 2013114479 @default.
W2013114479 citedByCount "20" @default.
W2013114479 countsByYear W20131144792013 @default.
W2013114479 countsByYear W20131144792014 @default.
W2013114479 countsByYear W20131144792015 @default.
W2013114479 countsByYear W20131144792017 @default.
W2013114479 countsByYear W20131144792021 @default.
W2013114479 countsByYear W20131144792022 @default.
W2013114479 countsByYear W20131144792023 @default.
W2013114479 crossrefType "journal-article" @default.
W2013114479 hasAuthorship W2013114479A5006471301 @default.
W2013114479 hasAuthorship W2013114479A5072980953 @default.
W2013114479 hasConcept C119599485 @default.
W2013114479 hasConcept C127413603 @default.
W2013114479 hasConcept C203014093 @default.
W2013114479 hasConcept C2778048844 @default.
W2013114479 hasConcept C761482 @default.
W2013114479 hasConcept C86803240 @default.
W2013114479 hasConceptScore W2013114479C119599485 @default.
W2013114479 hasConceptScore W2013114479C127413603 @default.
W2013114479 hasConceptScore W2013114479C203014093 @default.
W2013114479 hasConceptScore W2013114479C2778048844 @default.
W2013114479 hasConceptScore W2013114479C761482 @default.
W2013114479 hasConceptScore W2013114479C86803240 @default.
W2013114479 hasLocation W20131144791 @default.
W2013114479 hasOpenAccess W2013114479 @default.
W2013114479 hasPrimaryLocation W20131144791 @default.
W2013114479 hasRelatedWork W1976029723 @default.
W2013114479 hasRelatedWork W1988912004 @default.
W2013114479 hasRelatedWork W2101079711 @default.
W2013114479 hasRelatedWork W2160160017 @default.
W2013114479 hasRelatedWork W2314602551 @default.
W2013114479 hasRelatedWork W2417418506 @default.
W2013114479 hasRelatedWork W2545289773 @default.
W2013114479 hasRelatedWork W2621154573 @default.
W2013114479 hasRelatedWork W3009254408 @default.
W2013114479 hasRelatedWork W3120020562 @default.
W2013114479 hasVolume "298" @default.
W2013114479 isParatext "false" @default.
W2013114479 isRetracted "false" @default.
W2013114479 magId "2013114479" @default.
W2013114479 workType "article" @default.