In this experimental study, we compared the embryonic respiration rate in air and water of six East African sesarmid species with intertidal, supratidal and arboreal habits, to highlight possible adaptations in embryonic metabolism to their different life-styles. The embryos of all analyzed crabs showed bimodal respiration, but we did not find a trend towards an enhanced embryonic oxygen uptake in air from the intertidal to the arboreal and supratidal species. However, the late-stage embryos of the most land-adapted species, Chiromantes spp., showed an enhanced metabolism when immersed in seawater, that we interpreted as an adaptive recovery mechanism to cope with the storage of by-products due to marine-based metabolic pathways during long emersion periods. Thus, we showed that the embryos of land adapted species, although still strongly water-dependent, are well adapted to semi-terrestrial habitats and represent a minor limiting factor for females, which are not restricted in their emersion period by the oxygen requirements of their embryos.
Adaptations to semi-terrestrial life in embryos of East African mangrove crabs: a comparative approach / Simoni R.; Giomi F.; Spigoli D. ; Poernter H-O.; Cannicci S.. - In: MARINE BIOLOGY. - ISSN 0025-3162. - STAMPA. - 160:(2013), pp. 2483-2492. [10.1007/s00227-013-2243-3]
Adaptations to semi-terrestrial life in embryos of East African mangrove crabs: a comparative approach.
CANNICCI, STEFANO
2013
Abstract
In this experimental study, we compared the embryonic respiration rate in air and water of six East African sesarmid species with intertidal, supratidal and arboreal habits, to highlight possible adaptations in embryonic metabolism to their different life-styles. The embryos of all analyzed crabs showed bimodal respiration, but we did not find a trend towards an enhanced embryonic oxygen uptake in air from the intertidal to the arboreal and supratidal species. However, the late-stage embryos of the most land-adapted species, Chiromantes spp., showed an enhanced metabolism when immersed in seawater, that we interpreted as an adaptive recovery mechanism to cope with the storage of by-products due to marine-based metabolic pathways during long emersion periods. Thus, we showed that the embryos of land adapted species, although still strongly water-dependent, are well adapted to semi-terrestrial habitats and represent a minor limiting factor for females, which are not restricted in their emersion period by the oxygen requirements of their embryos.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.