Premium
Crocodilian perivitelline membrane‐bound sperm detection
Author(s) -
Augustine Lauren
Publication year - 2017
Publication title -
zoo biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.5
H-Index - 54
eISSN - 1098-2361
pISSN - 0733-3188
DOI - 10.1002/zoo.21367
Subject(s) - sperm , biology , zoology , artificial insemination , avian clutch size , human fertilization , reproductive biology , reproduction , ecology , anatomy , embryo , embryogenesis , botany , fishery , genetics , pregnancy
Advanced reproductive technologies (ART's) are often employed with various taxa to enhance captive breeding programs and maintain genetic diversity. Perivitelline membrane‐bound (PVM‐bound) sperm detection has previously been demonstrated in avian and chelonian species as a useful technique for breeding management. In the absence of embryotic development within an egg, this technique can detect the presence of sperm trapped on the oocyte membrane confirming breeding, male reproductive status, and pair compatibility. PVM‐bound sperm were successfully detected in three clutches of Cuban crocodile ( Crocodylus rhombifer ) eggs at the Smithsonian's National Zoological Park (NZP) for the first time in any crocodilian species. PVM‐bound sperm were detected in fresh and incubated C. rhombifer eggs, as well as eggs that were developing (banded) and those that were not (not banded). The results of this study showed significant differences in average sperm densities per egg between clutches ( p = 0.001). Additionally, there was not a significant difference within clutches between eggs that banded and those that did not band (Clutch A, p = 0.505; Clutch B, p = 0.665; Clutch C, p = 0.266). The results of this study demonstrate the necessity to microscopically examine eggs that do not develop (do not band), to determine if sperm is present, which can help animal managers problem solve reproductive shortcomings. PVM‐bound sperm detection could be a useful technique in assessing crocodilian breeding programs, as well as have potential uses in studies assessing sperm storage, artificial insemination, and artificial incubation.