Department of Biology, Trent University, Peterborough, Ontario, K9L 0G2, Canada.
Environmental and Life Science Graduate Program, Trent University, Peterborough, Ontario, K9L 0G2, Canada.
Sci Rep. 2018 Jun 26;8(1):9673. doi: 10.1038/s41598-018-27758-7.
The growth of animal consumers is affected by the balance of elements in their diet with the transition between limitation by one element to another known as the threshold elemental ratio (TER). Precise estimates of TERs with known levels of uncertainty have yet to be generated for most zooplankton consumers. We determined the TER for carbon (C) and phosphorus (P) in for a common lake zooplankter, Daphnia magna, using experimental measurements and theoretical considerations. Daphnia growth responses to food C:P ratios across a relatively narrow range (80-350) generated an empirical estimate of TER of 155 ± 14. While this TER matched our modelled estimate of TER (155 ± 16), it was lower than previous estimates of this dietary transition point. No threshold was found when we examined daphnid body C:N or C:P ratios in response to changing food C:P ratios, which indicates P-limitation at even lower food C:P ratios. Our results provide strong evidence that D. magna is likely to experience acute P-limitation when food C:P ratios exceed even relatively low ratios (~155). Our model further demonstrated that while physiological adjustments may reduce the likelihood of P-limitation or reduce its intensity, these changes in animal material processing would be accompanied by reduced maximum growth rates.
动物消费者的生长受到其饮食中元素平衡的影响,从一种元素的限制到另一种元素的限制的转变被称为阈元素比(TER)。对于大多数浮游动物消费者,仍然需要生成具有已知不确定性水平的 TER 的精确估计。我们使用实验测量和理论考虑来确定常见湖浮游动物大型溞(Daphnia magna)中碳(C)和磷(P)的 TER。在相对较窄的范围内(80-350),大型溞对食物 C:P 比的生长反应产生了 TER 的经验估计值为 155±14。虽然这个 TER 与我们模型估计的 TER(155±16)相匹配,但它低于以前对这种饮食转折点的估计。当我们检查在不同食物 C:P 比下,大型溞体内 C:N 或 C:P 比的变化时,没有发现阈值,这表明在更低的食物 C:P 比下,磷限制更为严重。我们的研究结果有力地表明,当食物 C:P 比超过相对较低的比率(约 155)时,大型溞很可能会经历急性磷限制。我们的模型进一步表明,尽管生理调整可能会降低磷限制的可能性或降低其强度,但动物物质处理的这些变化将伴随着最大生长速率的降低。
