Meeting Abstract

P2.131  Sunday, Jan. 5 15:30  Effects of environmental hypoxia and elevated CO₂ on the hemocyanin oxygen binding properties of the Atlantic mud crab, Panopeus herbstii MILLAN-HERNANDEZ, CA*; BURNETT, KG; BURNETT, LE; College of Charleston; College of Charleston; College of Charleston c_millan.01@hotmail.com

The changes in hemocyanin (Hc) O₂ binding properties with exposure to chronic environmental hypoxia and hypercapnia were investigated in the Atlantic mud crab. Crabs (mean wt. 5.31 g) were exposed to one of four treatments for 2 weeks: normoxia (>80% air saturation), hypoxia (20% air saturation), hypercapnia (2% CO₂, > 80% air saturation), and hypercapnic hypoxia (2% CO₂, 20% air saturation). Hemocyanin concentration in crabs freshly collected from the field was 5.9 g/100 mL ±0.6 SEM, N = 29; this did not change as a result of treatment. Hc of normoxic controls displayed a Bohr shift with a slope of -0.51 and a P₅₀ of 1.47 kPa at pH 7.4. Hypoxia did not change the size of the Bohr shift, but resulted in an overall increase in O₂ affinity (P₅₀ = 1.29 kPa, pH 7.4). The addition of CO₂ resulted in a larger Bohr shift (-0.66) compared to the normoxic control. Treatment with a combination of hypoxia and CO₂ also increased the Bohr shift (-0.61) compared with its hypoxia control (-0.47). Neither CO₂ treatment increased the O₂ affinity. The interaction between the O₂ binding sites on Hc, cooperativity (=n₅₀), was not influenced significantly by pH in normoxia and hypoxia with the mean n₅₀ of 3.2 at pH 7.4. n₅₀ decreased with pH in the two CO₂ treatments and was 2.9 at pH 7.4 in both treatments. There was a small effect of lactate in the normoxia treatment (-0.07 = Δlog P₅₀/Δlog [lactate]) at pH 7.4 and there was no significant change with any treatment. Hc was insensitive to urate. P. herbstii Hc O₂ affinity clearly increased as a result of chronic treatment with hypoxia. However, environmental CO₂ canceled the adaptive benefits of the hypoxia treatment, especially at low pH. (NSF DBI-1062990, IOS-1147008)