Ayvazian S G, Miller K, Grabbert S C, Hanian A J, Hanian S R, Deegan L A
U.S. Environmental Protection Agency, Office of Research and Development, Center for Environmental Measurement and Modeling, Atlantic Coastal Environmental Science Division, 27 Tarzwell Drive, Narragansett, RI 02882.
General Dynamics Information Technology, 6361 Walker Lane, Suite 300, Alexandria, VA 22310.
J Shellfish Res. 2025 Jan 1;43(3):311-321. doi: 10.2983/035.043.0302.
The ribbed mussel, (Dillwyn, 1817), is an abundant bivalve in New England salt marshes, and has been found to be a long-term integrator of anthropogenic nitrogen loading to a watershed. The response of morphometrics, condition index, density, and nitrogen and carbon isotope values were examined at (Loisel, 1807) creek edge, creek wall, and mudflat habitats from two pairs of nutrient-enriched and reference creeks at Plum Island Estuary, Massachusetts, USA. Ribbed mussels from the creek wall had greater shell weight, and condition index than mussels from the creek edge or mudflat habitats. Ribbed mussel density was general greater at the creek wall, and unexpectedly greater at the unfertilized Nelson Creek than the fertilized Clubhead Creek in 2013. Few were collected from the mudflat in any creek. Ribbed mussels collected from creek wall habitat in fertilized creeks demonstrated lower nitrogen isotope values than reference creeks resulting from the fractional contribution of the nitrogenous fertilizer in the experimental creeks. Significant differences between carbon isotope values were not consistent between the nutrient enriched and reference creek pairs. Carbon isotope values indicated the main food source of a primary consumer, was phytoplankton. Despite significant differences in nitrogen and carbon isotope values between enriched and reference creek pairs, the < 2‰ difference indicates that moderate levels of nutrient enrichment may not have been sufficient to elicit a bottom-up response in the phytoplankton that transferred to the local mussels. This study highlights the temporal and spatial complexities between the response of primary producers to nutrient over-enrichment and response of condition and distribution in tidal salt marshes along the Atlantic coast.
条纹贻贝(Dillwyn,1817年)是新英格兰盐沼中数量丰富的双壳贝类,已被发现是流域人为氮负荷的长期整合者。在美国马萨诸塞州梅岛河口两对营养丰富的溪流和对照溪流的(Loisel,1807年)溪岸、溪壁和泥滩栖息地,研究了条纹贻贝的形态测量、状况指数、密度以及氮和碳同位素值的响应。来自溪壁的条纹贻贝比来自溪岸或泥滩栖息地的贻贝具有更大的壳重和状况指数。条纹贻贝密度一般在溪壁处更大,且在2013年未施肥的尼尔森溪比施肥的棒头溪意外地更大。在任何溪流的泥滩中采集到的条纹贻贝都很少。从施肥溪流的溪壁栖息地采集的条纹贻贝显示出比对照溪流更低的氮同位素值,这是由于实验溪流中氮肥的部分贡献所致。营养丰富的溪流和对照溪流对之间的碳同位素值没有一致的显著差异。碳同位素值表明,作为初级消费者的条纹贻贝的主要食物来源是浮游植物。尽管营养丰富的溪流和对照溪流对之间的氮和碳同位素值存在显著差异,但<2‰的差异表明,适度的营养富集水平可能不足以引发浮游植物的自下而上的响应并传递给当地贻贝。这项研究突出了大西洋沿岸潮汐盐沼中初级生产者对营养过度富集的响应与条纹贻贝状况和分布响应之间的时间和空间复杂性。