Sea Stars - with Missing Arms! - Experiencing Ocean Acidification
Schram, J.B., McClintock, J.B., Angus, R.A and Lawrence, J.M. 2011. Regenerative capacity and biochemical composition of the sea star Luidia clathrata (Say) (Echinodermata: Asteroidea) under conditions of near-future ocean acidification. Journal of Experimental Marine Biology and Ecology 407: 266-274.
Specifically, in the words of Schram et al., "two groups of sea stars, each with two arms excised, were maintained on a formulated diet in seawater bubbled with air alone (pH 8.2, approximating a pCO2 of 380 ppm) or with a controlled mixture of air/CO2 (pH 7.8, approximating a pCO2 of 780 ppm)," while "arm length, total body wet weight, and righting responses were measured weekly." Then, after 97 days, which they describe as "a period of time sufficient for 80% arm regeneration," they say that "protein, carbohydrate, lipid and ash levels were determined for body wall and pyloric caecal tissues of intact and regenerating arms of individuals held in both seawater pH treatments."
Very briefly, the four U.S. researchers report that "adults of the common soft bottom predatory sea star Luidia clathrata exposed to end-of-century conditions of ocean acidification (pH 7.8) are relatively unimpaired in their regenerative capacity," which "encompasses not only their ability to re-grow their arms, but their ability to allocate materials and energy to regenerated somatic body components." In addition, they say "there is no discernable pattern arising from exposure to a reduced seawater pH of 7.8 for 97 days on righting behavior," which they say is "an integrative measure of stress."
Schram et al. conclude the report of their work by stating that "the demonstration of an organism's ability to sustain normal functions under these conditions is as equally important to document as those that are negatively impacted," since "this information will be critical to future assessments of prospective impacts of ocean acidification at the community level." Going one step further, it is also possible that the non-effects of ocean acidification may well prove to be even more important than whatever small negative changes might ultimately be produced by the acidification phenomenon, since under such conditions it may be decided there is no need to drastically restructure the way the world obtains its energy.
Anderson, A.J., Mackenzie, F.T. and Bates, N.R. 2008. Life on the margin: implications of ocean acidification on Mg-calcite, high latitude and cold-water marine calcifiers. Marine Ecology Progress Series 373: 265-273.
Gayathri, S., Lakshminarayanan, R., Weaver, J.C., Morse, D.E., Kini, R.M. and Valiyaveettil, S. 2007. In vitro study of magnesium-calcite biomineralization in the skeletal materials of the seastar Pisaster giganteus. Chemistry - A European Journal 13: 3262-3268.