Shelf-life of cooked meat of southern king crab (Lithodes santolla) and false king crab (Paralomis granulosa) during refrigerated storage.

Lithodes santolla (SKC) and Paralomis granulosa (FSKC) are economically important resources exploited in southern South America. The effect of refrigerated storage (4 °C on flake ice) on physico-chemical (pH, thiobarbituric reactive substances (TBARs), total volatile basic nitrogen (TVB-N), water holding capacity (WHC), and water content (WC)), microbiological (total viable mesophilic bacteria (TVMC), psychrotrophic bacteria (TVPC), Staphylococcus spp, coliforms, enterobacteria, molds and yeasts) and sensory (odor, appearance, texture, juiciness, and taste) parameters was analyzed in the cooked SKC and FSKC merus. For each species, cooked merus from 36 animals were randomly distributed into 6 groups, corresponding to 0, 2, 5, 8, 11, and 14 days of storage. On each day, samples were taken for physico-chemical (n = 6), microbiological (n = 3), and sensory (n = 15) analyses. The pH values increased over time (P < 0.01 in both species), the TBARs only increased in FSKC (P = 0.008), whereas the TVB-N significantly rose only in SKC (P = 0.001). The WHC and the WC did not change over time for any of the king crab species (P > 0.05) in all cases. The presence of TVCM, TVCP, and Staphylococcus spp. in both species was observed from day 0. Furthermore, pathogenic microorganisms (S. aureus, coliforms, and enterobacteria) were not detected, and only the TVCP in SFKC reached the suggested microbial limit after 11 days. All sensory scores significantly decreased (P < 0.001) over time, but the quality of both king crab species remained acceptable until the 11th day. These findings suggest that the shelf-life of cooked merus was 11 and 8 days for SKC and SFKC, respectively, when stored at 4 °C with the presence of flake ice. These contributions consist of elucidating the shelf-life of these economically important seafood products and providing insights into their quality maintenance during storage.

Histomorphological changes in testes of broad-snouted caimans (Caiman latirostris) associated with in ovo exposure to endocrine-disrupting chemicals.

Studies regarding the effects of endocrine-disrupting chemicals (EDCs) on the reproductive functions of wild animals have raised increasing concern. Thus, here we evaluated the consequences of in ovo exposure to endosulfan (END) and bisphenol A (BPA) in testes from neonatal to juvenile (Juv) caimans (Caiman latirostris). Caiman eggs were collected from areas with low to moderate anthropogenic intervention and incubated at male-producing temperature. At stage 20 of embryonic development (previous to gonad sex determination), eggs were exposed to either END (20 ppm) or BPA (1.4 ppm) and male gonad histomorphology examined in 10-day-old, 90-day-old, and Juv caimans. The relative seminiferous tubular area (RTA) was measured in testes and the proliferation index and the expression of estrogen receptor alpha (ERα) were quantified in intratubular cells. Regardless of the treatment, all eggs resulted in male hatchlings. The testes of EDC-exposed caimans presented tortuous seminiferous tubules with empty tubular lumens. The RTA of 10-day-old caimans exposed to BPA was decreased. The percentage of cells expressing ERα was not different after in ovo treatment with EDCs (compared to the Control group), although caimans exposed to END showed a different ERα distribution pattern. The proliferation index was lower in 90-day-old caimans exposed to END, and higher in Juv caimans exposed to BPA. In ovo exposure to END or BPA modified sensitive parameters of C. latirostris male gonads. The alterations described here might compromise not only the sexual maturation but also the reproductive performance of adult caimans. J. Exp. Zool. 325A:84-96, 2016. © 2015 Wiley Periodicals, Inc.