Physiology and lipid metabolism of Littorina saxatilis infected with trematodes

Abstract: Physiological and biochemical alterations in Littorina saxatilis infected with larval trematodes were investigated and compared with the metabolism of non-parasitized snails. Oxygen consumption rates of infected snails differed from those of non-infected controls in medium sized individuals (30 to 130 mg) but not in very large infected individuals (> 200 mg). Small snails (0.5 to 8.5 mg) were seldom infected by parasites, and this size-class consisted only of non-infected specimens. The specific oxygen consump… Show more

“…1 fall within a nar row temperature range and were approximated by the same equation R = (0.0013 ± 0.0004) DWt 0.835 ± 0.053 (n = 61, r 2 = 0.81). Previous data on oxygen consump tion by L. saxatilis from the Atlantic and White Sea (Aldridge, Russell Hunter, and McMahon, 1995;Arakelova, Chebotareva, and Zabelinskii, 2004) indi cated that, according to low regression coefficients b (0.17 and 0.46, respectively), this parameter was only slightly dependent on body weight. The above coeffi cients are significantly lower than the accepted allom etric index characterizing the rate of physiological (Aldridge, Russell Hunter, and McMahon, 1995) and 7°С (Sokolova, Bock, and Pörtner, 2000) are adjusted to 15 and 12°C, respectively, using temperature correction factors q for mollusks (Alimov, 1981).…”

“…The total fresh and dry body weights of L. saxatilis snails were calculated by previously derived equations of the form W = f(L) (Arakelova, Chebotareva, and Zabelinskii, 2004): W = 0.429L 2.78 (n = 29, r 2 = 0.99), DWt = 0.052L 2.68 (n = 20, r 2 = 0.98), where W and DWt are the total fresh weight and the dry body weight without shell (mg), respectively. These val ues were used to calculate physiological parameters.…”

“…Studies on the energy metabolism of littoral mol lusks often involve analysis of compensatory reactions, which are characteristic of organisms inhabiting the upper littoral zone and exposed to abrupt fluctuations of various environmental factors (Aldridge, Russell Hunter, and McMahon, 1995;Sokolova, Bock, and Pörtner, 2000;Larade and Storey, 2002;Arakelova, Chebotareva, and Zabelinskii, 2004). Energy metabo lism is directly connected with other physiological processes, and its analysis can provide an insight into metabolism of the organism as a whole, based on the quantitative assessment of the fluxes of biogenic ele ments in it (Sterner and Elser, 2002).…”

Rates of energy and phosphorus metabolism in Littorina snails (gastropoda)

“…1 fall within a nar row temperature range and were approximated by the same equation R = (0.0013 ± 0.0004) DWt 0.835 ± 0.053 (n = 61, r 2 = 0.81). Previous data on oxygen consump tion by L. saxatilis from the Atlantic and White Sea (Aldridge, Russell Hunter, and McMahon, 1995;Arakelova, Chebotareva, and Zabelinskii, 2004) indi cated that, according to low regression coefficients b (0.17 and 0.46, respectively), this parameter was only slightly dependent on body weight. The above coeffi cients are significantly lower than the accepted allom etric index characterizing the rate of physiological (Aldridge, Russell Hunter, and McMahon, 1995) and 7°С (Sokolova, Bock, and Pörtner, 2000) are adjusted to 15 and 12°C, respectively, using temperature correction factors q for mollusks (Alimov, 1981).…”

“…The total fresh and dry body weights of L. saxatilis snails were calculated by previously derived equations of the form W = f(L) (Arakelova, Chebotareva, and Zabelinskii, 2004): W = 0.429L 2.78 (n = 29, r 2 = 0.99), DWt = 0.052L 2.68 (n = 20, r 2 = 0.98), where W and DWt are the total fresh weight and the dry body weight without shell (mg), respectively. These val ues were used to calculate physiological parameters.…”

“…Studies on the energy metabolism of littoral mol lusks often involve analysis of compensatory reactions, which are characteristic of organisms inhabiting the upper littoral zone and exposed to abrupt fluctuations of various environmental factors (Aldridge, Russell Hunter, and McMahon, 1995;Sokolova, Bock, and Pörtner, 2000;Larade and Storey, 2002;Arakelova, Chebotareva, and Zabelinskii, 2004). Energy metabo lism is directly connected with other physiological processes, and its analysis can provide an insight into metabolism of the organism as a whole, based on the quantitative assessment of the fluxes of biogenic ele ments in it (Sterner and Elser, 2002).…”

Rates of energy and phosphorus metabolism in Littorina snails (gastropoda)

“…Среди многообразия аспектов во взаи-моотношениях «паразит -хозяин» актуальным остается вопрос о влиянии паразитов на био-химический статус хозяина. Достаточно под-робно описаны метаболические модификации, вызванные инвазией трематод, у брюхоногих моллюсков [Lunetta, Vernberg, 1971;Thompson, 1983;Fried et al, 1993a, б;Arakelova et al, 2004Arakelova et al, , 2007Vorontsova et al, 2010;Gornowicz et al, 2013;Tyutin, Izvekova, 2013], однако исследо-вания биохимических параметров двуствор-чатых моллюсков, зараженных трематодами, фактически отсутствуют. Считается, что пато-генное воздействие метацеркарий трематод на организм второго промежуточного хозяина минимально [Bower et al, 1994;Laruelle et al, 2002], поскольку в большинстве случаев ме-тацеркарии представляют собой покоящуюся стадию, «ожидающую» попадания в организм окончательного хозяина [Werding, 1969].…”

“…При этом известно, что внедрение паразита инду-цирует значительные метаболические пере-стройки в организме хозяина, инициируя фор-мирование активных форм кислорода (АФК) и тем самым вызывая окислительный стресс и активацию антиоксидантной системы (АОС) [Vorontsova et al, 2010;Gornowicz et al, 2013;Tyutin, Izvekova, 2013]. В связи с этим с помо-щью биохимических маркеров, в том числе по-казателей, отражающих работу АОС, а также состав липидов и их жирных кислот (которые служат основной мишенью для действия АФК), можно оценить влияние паразитарной инвазии на организм промежуточного хозяина [Fried, Bradford, 1984;Fried et al, 1995;Arakelova et al, 2004Arakelova et al, , 2007Руднева и др., 2004;Vorontsova et al, 2010;Gornowicz et al, 2013].…”

Assessment of the Lipid Composition and Some Components of the Antioxidant System in Blue Mussels Mytilus Edulis Experimentally Infected With Himasthla Elongata Metacercariae

Parasites and their freshwater snail hosts maintain their nutritional value for essential fatty acids despite altered algal diets