000099238 001__ 99238
000099238 005__ 20181203020708.0
000099238 0247_ $$2doi$$a10.1111/j.1365-3032.2006.00514.x
000099238 037__ $$aARTICLE
000099238 245__ $$aMicroclimatic factors influencing refugium suitability for Rhodnius prolixus
000099238 269__ $$a2006
000099238 260__ $$c2006
000099238 336__ $$aJournal Articles
000099238 520__ $$aRehydration in the triatomine bug Rhodnius prolixus (Stal) is dependent on the blood meal, and water balance regulation is crucial for survival of starving bugs. In an experimental arena with zones at different climatic conditions, starved R. prolixus nymphs prefer a cooler and more humid zone, stopping there more often and for longer periods. This is probably a behavioural adaptation to limit water loss and reduce metabolic rate. In the Venezuelan State of Portuguesa, temperature and humidity were monitored in three kinds of potential refugia during the dry season: (i) in a palm roof; (ii) in a crack of the wall of a house; and (iii) in a palm tree crown. Fluctuations in temperature and saturation deficit are not very different inside and outside the palm roof except during a few hours of the day when the sun is at its zenith. In the crack of the wall, the diurnal temperature range is reduced to 6.5 C compared with 12.4 C outside, and the saturation deficit varies by only 7.6 hPa compared with 28.6 hPa outside. In the palm tree crown, the daily temperature range is only 4.2 C compared with 13.8 C outside, and the saturation deficit is permanently less than 5 hPa. The microclimatic conditions in the palm tree crown would appear to be ideal for starving R. prolixus, but this kind of refugium generally harbours low densities of bugs, probably related to a combination of predation, pathogens and lower mean temperature within the crown. Such biotic and abiotic constraints play a lesser role in the less ideal palm roof and wall crack refugia where bugs can proliferate as long as hosts are readily available nearby.
000099238 6531_ $$aMicroclimatic condition
000099238 6531_ $$arefugium 
000099238 6531_ $$aRhodnius prolixus
000099238 6531_ $$atriatomine bug
000099238 6531_ $$aVenezuela 
000099238 6531_ $$awater balance
000099238 700__ $$aHeger, T.J.
000099238 700__ $$aGuerin, P.M.
000099238 700__ $$aEugster, W.
000099238 773__ $$j31$$k3$$q248-256$$tPhysiological Entomology
000099238 8564_ $$s196563$$uhttps://infoscience.epfl.ch/record/99238/files/Heger_et_al2006.pdf$$zn/a
000099238 909C0 $$0252129$$pECOS$$xU11021
000099238 909CO $$ooai:infoscience.tind.io:99238$$particle$$pENAC
000099238 937__ $$aECOS-ARTICLE-2007-004
000099238 973__ $$aEPFL$$rREVIEWED$$sPUBLISHED
000099238 980__ $$aARTICLE