Brookstone School, Columbus, GA, USA.
J Chem Ecol. 2013 Jun;39(6):764-72. doi: 10.1007/s10886-013-0289-9. Epub 2013 May 26.
Increased metal availability in the environment can be detrimental for the growth and development of all organisms in a food web. In part, this toxicity is due to biotransfer or bioaccumulation of metals between trophic levels. We evaluated the survival, growth, and development of a generalist Hemipteran predator (Podisus maculiventris) when fed herbivorous prey (Spodoptera exigua) reared on artificial diet amended with Cu, Zn, Ni, and Co. Predator nymphs were fed S. exigua larvae raised on diet amended with sublethal (Minimum Sublethal Concentration or MSC) or lethal (Minimum Lethal Concentration or MLC) concentrations of each metal, as well as control diet. We determined if metals were biotransferred or bioaccumulated from the diet to herbivore and predator, as well as if predator growth or survival was affected by herbivore diet. Podisus maculiventris fed herbivores raised on MLC levels of both Cu and Zn took significantly longer to mature to adults, whereas their overall survival was not affected by prey diet metal concentration for any metal. Adult weights were significantly reduced for predators raised on herbivores reared on diets amended with the MLC of Cu and Zn. Copper and Zn were bioaccumulated from diet to herbivore and from herbivore to predator, whereas Ni was biotransferred (although concentrations decreased as trophic level increased). The pattern for Co was more complex, with biotransfer the main outcome. Our results show that availability of metals in a food web can affect growth and development of a hemipteran predator, and that metals are transferred between trophic levels, with metal-specific biotransfer and bioaccumulation outcomes.
环境中金属可用性的增加可能对食物网中所有生物的生长和发育都有害。部分原因是金属在营养级之间的生物转移或生物累积。我们评估了一种通用半翅目捕食者(Podisus maculiventris)的生存、生长和发育情况,该捕食者摄食以人工饲料饲养的植食性猎物(Spodoptera exigua),该人工饲料中添加了 Cu、Zn、Ni 和 Co。捕食者若虫以摄食经亚致死浓度(最小亚致死浓度或 MSC)或致死浓度(最小致死浓度或 MLC)的每种金属以及对照饲料饲养的 S. exigua 幼虫。我们确定金属是否从饮食中被生物转移或生物累积到植食者和捕食者,以及捕食者的生长或生存是否受到植食者饮食的影响。以 MLC 水平的 Cu 和 Zn 饲养的捕食者若虫成熟为成虫的时间明显延长,而它们的总体存活率不受任何金属的猎物饮食金属浓度的影响。以添加 MLC 的 Cu 和 Zn 的饮食饲养的捕食者成虫的体重显著降低。Cu 和 Zn 从饮食中被生物累积到植食者,并从植食者到捕食者,而 Ni 则被生物转移(尽管浓度随着营养级的增加而降低)。Co 的模式更为复杂,主要结果是生物转移。我们的结果表明,食物网中金属的可用性会影响半翅目捕食者的生长和发育,并且金属在营养级之间传递,具有特定金属的生物转移和生物累积结果。
