塑料,晚餐的食物:瓶鼻海豚及其猎物摄入颗粒的初步比较

Oceans Pub Date : 2023-12-07 DOI:10.3390/oceans4040028
L. Hart, M. Dziobak, Randall S. Wells, Elizabeth J. Berens McCabe, Eric Conger, Tita Curtin, Maggie Knight, John Weinstein
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摘要

据报道,居住在美国佛罗里达州萨拉索塔湾的普通宽吻海豚(Tursiops truncatus)摄入微塑料,该社区也普遍暴露于浓度高于人类参考人群的增塑剂(即邻苯二甲酸盐)。接触源目前尚不清楚,但被塑料污染的猎物可能是媒介。为了探索营养暴露的可能性,研究人员筛选了猎物鱼的肌肉和胃肠道(GIT)组织及其内容物,以检测可疑的微塑料,并将颗粒特性(如颜色、形状、表面纹理)与自由放养海豚胃样本中的颗粒特性进行了比较。4种29条鱼(硬头鲶鱼,Ariopsis felis;猪鱼;尾鱼,菱形蛇尾鱼;以及2022年9月在萨拉索塔湾采集的海湾蟾蜍鱼(Opsanus beta)。总体而言,97%的鱼(n = 28)有可疑的微塑料,GIT丰度高于肌肉。鱼和海豚样本中含有纤维和薄膜;然而,泡沫在海豚样本中很常见,在鱼类中没有观察到。海豚样本中未发现可疑的轮胎磨损颗粒(TWP),但分别有23.1%和32.0%的鱼肌肉和GIT样本中含有至少一种可疑的TWP。虽然海豚和鱼类在颗粒上有一些相似之处,但对泡沫和twp的小样本量和不一致的发现表明,有必要进一步研究以了解营养转移潜力。
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Plastic, It’s What’s for Dinner: A Preliminary Comparison of Ingested Particles in Bottlenose Dolphins and Their Prey
Microplastic ingestion was reported for common bottlenose dolphins (Tursiops truncatus) inhabiting Sarasota Bay, FL, USA, a community that also has prevalent exposure to plasticizers (i.e., phthalates) at concentrations higher than human reference populations. Exposure sources are currently unknown, but plastic-contaminated prey could be a vector. To explore the potential for trophic exposure, prey fish muscle and gastrointestinal tract (GIT) tissues and contents were screened for suspected microplastics, and particle properties (e.g., color, shape, surface texture) were compared with those observed in gastric samples from free-ranging dolphins. Twenty-nine fish across four species (hardhead catfish, Ariopsis felis; pigfish, Orthopristis chrysoptera; pinfish, Lagodon rhomboides; and Gulf toadfish, Opsanus beta) were collected from Sarasota Bay during September 2022. Overall, 97% of fish (n = 28) had suspected microplastics, and GIT abundance was higher than muscle. Fish and dolphin samples contained fibers and films; however, foams were common in dolphin samples and not observed in fish. Suspected tire wear particles (TWPs) were not in dolphin samples, but 23.1% and 32.0% of fish muscle and GIT samples, respectively, contained at least one suspected TWP. While some similarities in particles were shared between dolphins and fish, small sample sizes and incongruent findings for foams and TWPs suggest further investigation is warranted to understand trophic transfer potential.
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