Balter Vincent
UMR 5125 CNRS-Lyon I, PaléoEnvironnement et PaléobioSphère, Université Claude Bernard, Campus de la Doua, Bâtiment Géode, Boulevard du 11 Novembre 1918, 69622 Cedex, Villeurbanne, France.
Oecologia. 2004 Mar;139(1):83-8. doi: 10.1007/s00442-003-1476-0. Epub 2004 Jan 27.
In biological systems, strontium (Sr) and barium (Ba) are two non-essential elements, in comparison to calcium (Ca) which is essential. The Sr/Ca and Ba/Ca ratios tend to decrease in biochemical pathways which include Ca as an essential element, and these processes are termed biopurification of Ca. The quantitative pathway of the biopurification of Ca in relation to Sr and Ba between two biological reservoirs ( Rn and R(n -1)) is measured with an observed ratio (OR) expressed by the (Sr/Ca) Rn /(Sr/Ca)( Rn-1) and (Ba/Ca) Rn /(Ba/Ca)( Rn-1) ratios. For a mammalian organism, during the whole biopurification of Ca starting with the diet to the ultimate reservoir of Ca which is the bone, the mean values for ORSr and ORBa are 0.25 and 0.2, respectively. In this study, published Sr/Ca and Ba/Ca ratios are used for three sets of soils, plants, and bones of herbivorous and carnivorous mammals, each comprising a trophic chain, to illustrate the biopurification of Ca at the level of trophic chains. Calculated ORSr and ORBa of herbivore bones in relation to plants and of bones of carnivores in relation to bones of herbivores give ORSr=0.30+/-0.08 and ORBa=0.16+/-0.08, thus suggesting that trophic chains reflect the Sr/Ca and Ba/Ca fluxes that are prevalent at the level of a mammalian organism. The slopes of the three regression equations of log(Sr/Ca) vs. log(Ba/Ca) are similar, indicating that the process of biopurification of Ca with respect to Sr and Ba is due to biological processes and is independent of the geological settings. Modifications of the logarithmic expression of the Sr/Ca and Ba/Ca relationship allow a new formula of the biopurification process to be deduced, leading to the general equation ORBa=ORSr(1.79+/-0.33), where the allometric coefficient is the mean of the slopes of the three regression equations. Some recent examples are used to illustrate this new analysis of predator-prey relations between mammals. This opens up new possibilities for the utilization of Ba/Ca and Sr/Ca in addition to stable isotope ratios (delta13C and delta15N) for the determination of the relative contribution of different food sources to an animal's diet.
在生物系统中,与必需元素钙(Ca)相比,锶(Sr)和钡(Ba)是两种非必需元素。在包括Ca作为必需元素的生化途径中,Sr/Ca和Ba/Ca比值往往会降低,这些过程被称为Ca的生物净化。通过用(Sr/Ca)Rn/(Sr/Ca)(Rn-1)和(Ba/Ca)Rn/(Ba/Ca)(Rn-1)比值表示的观测比值(OR)来测量两个生物库(Rn和R(n - 1))之间与Sr和Ba相关的Ca生物净化的定量途径。对于哺乳动物机体,在从饮食开始到作为Ca最终储存库的骨骼的整个Ca生物净化过程中,ORSr和ORBa的平均值分别为0.25和0.2。在本研究中,已发表的Sr/Ca和Ba/Ca比值被用于三组土壤、植物以及食草和食肉哺乳动物的骨骼,每组构成一个营养链,以说明营养链水平上Ca的生物净化。食草动物骨骼相对于植物以及食肉动物骨骼相对于食草动物骨骼计算出的ORSr和ORBa分别为ORSr = 0.30±0.08和ORBa = 0.16±0.08,这表明营养链反映了在哺乳动物机体水平上普遍存在的Sr/Ca和Ba/Ca通量。log(Sr/Ca)对log(Ba/Ca)的三个回归方程的斜率相似,表明相对于Sr和Ba的Ca生物净化过程是由于生物过程,并且与地质环境无关。对Sr/Ca和Ba/Ca关系的对数表达式的修改允许推导出生物净化过程的新公式,得到通用方程ORBa = ORSr(1.79±0.33),其中异速生长系数是三个回归方程斜率的平均值。使用一些最近的例子来说明这种对哺乳动物捕食者 - 猎物关系的新分析。这除了利用稳定同位素比值(δ13C和δ15N)之外,还为利用Ba/Ca和Sr/Ca来确定不同食物来源对动物饮食的相对贡献开辟了新的可能性。
