Thermohaline tolerance and embryonic development in capelin eggs (Mallotus villosus) from the Northeast Atlantic Ocean

Capelin (Mallotus villosus) displays alternative reproductive modes throughout its circumpolar distribution. This predicts divergent thermohaline tolerance of eggs because they are incubated in either a steady offshore or variable intertidal environment. We investigate herein thermohaline tolerance of eggs from the offshore spawning Barents Sea capelin. Subsequently, we compare our data with those previously published on other offshore and intertidal spawning capelin populations across the Northeast Atlantic Ocean, with the aim of determining possible patterns in the thermohaline tolerance of eggs from the alternative reproductive modes. In a 2?×?4 factorial design various combinations of salinities and temperatures had only negligible effect on the survival of eggs until first hatch. The embryonic development rate from fertilisation until first hatch across populations and between the two reproductive modes suggested non-local thermohaline tolerance towards the physical factors during development. Finally, no differences were observed in salinity tolerance from fertilisation to first hatch between populations representing different reproductive modes. The present findings demonstrate wide thermohaline tolerance of capelin eggs regardless of population origin and reproductive mode.     

Age Dimorphism in the Association between Growth‐Hormone Status and the Respiratory Quotient

Objective: To investigate the impact of age on the association between the respiratory quotient (RQ) and growth‐hormone (GH) secretion and to investigate the acute lipolytic response to an exogenous GH bolus. Research Methods and Procedures: A cross‐sectional study of 36 non‐obese healthy subjects (18 women and 18 men) from two age groups was used: “younger” (mean age, 29.5 years; range, 27 to 34 years) and “older” (mean age, 50.8 years; range, 47 to 59 years). Endogenous GH secretion by means of deconvolution analysis of 24‐hour serum GH concentrations was measured every 20 minutes. Resting RQ was measured after a 12‐hour overnight fast. The lipolytic response to an intravenous exogenous GH bolus (200 μg) was assessed by measuring serum levels of free fatty acids as well as changes in RQ. Additional measurements included body composition (regional computed tomography scan and DXA) and physical fitness (Vo ₂max). Results: Resting RQ did not differ between the two age groups: 0.81 ± 0.01 (young) vs. 0.82 ± 0.01 (older; not significant). Several estimates of GH release correlated positively with RQ in the younger group, whereas a negative correlation was detected in the older subjects [GH production rate (μg/liter × kg) vs. RQ: r = 0.62, p < 0.01 (younger); r = ?0.53; p = 0.02 (older)]. By regression analysis, 52% to 58% of the variation in RQ could be explained by GH status. After an exogenous GH bolus, the incremental response in nonesterified fatty acid was slightly higher in younger individuals (p = 0.09). Discussion: Resting RQ is significantly correlated with GH status. This association is positive in younger individuals and negative in older individuals. The lipolytic response to exogenous GH is moderately higher in younger compared with older individuals. GH status should be taken into account when investigating the residual variation in RQ.