Dear MARMAM community, On behalf of all co-authors, I am pleased to share our recent publication:
Todd, S., Robbins, J., Weinrich, M.T., Pastor, N., Dendanto, D., Palsbøll, P.J. and Zoidis, A.M., 2025. Examination of Isotopic Signals to Determine Trophic Dynamics and Diet of Gulf of Maine Mysticetes Prior to an Oceanographic Regime Shift. Aquatic Mammals, 51(1), pp.62-78. Abstract Stable isotope analysis (SIA) is a useful tool to assess the health and foraging habits of large marine predators, metabolic stress, pregnancy, and migration patterns. This study provides baseline SIA data for four Gulf of Maine mysticete species and serves as a benchmark for future assessments. SIA was conducted on skin biopsies collected in two time periods: 1988 to 1992 (n = 15) and 1999 to 2005 (n = 187). Samples were collected from humpback whales (Megaptera novaeangliae; n = 116), fin whales (Balaenoptera physalus; n = 74), minke whales (Balaenoptera acutorostrata; n = 6), and North Atlantic right whales (Eubalaena glacialis; n = 6). There were statistically significant differences in isotopic value among species, years, and regions sampled. By species, North Atlantic right whale δ13C and δ15N levels were significantly different than the other species analyzed. Additionally, humpback whales had a δ15N value that was significantly higher than the value found in fin whales. By date, humpback whales showed significant difference in δ13C in 2002 from the two previous years. For fin whales, 2002 showed significant difference in δ13C for all other years’ samples (2000 to 2003). By region, two regions that were the greatest distance apart (Bay of Fundy and Great South Channel) showed significant differences in δ13C for humpback whales. Demographic analyses for humpback and fin whales found a significant difference between calves versus other age classes, presumably due to nursing. A decadal comparison of humpback whales at one site (Stellwagen Bank) found no significant difference between decades. This dataset provides a benchmark for stable isotope measurements in large baleen whales for this regional ecosystem. The paper is now available online: https://www.aquaticmammalsjournal.org/article/examination-of-isotopic-signals-to-determine-trophic-dynamics-and-diet-of-gulf-of-maine-mysticetes-prior-to-an-oceanographic-regime-shift/ Examination of Isotopic Signals to Determine Trophic Dynamics and Diet of Gulf of Maine Mysticetes Prior to an Oceanographic Regime Shift - Aquatic Mammals<https://www.aquaticmammalsjournal.org/article/examination-of-isotopic-signals-to-determine-trophic-dynamics-and-diet-of-gulf-of-maine-mysticetes-prior-to-an-oceanographic-regime-shift/> Document: Article Abstract: Stable isotope analysis (SIA) is a useful tool to assess the health and foraging habits of large marine predators, metabolic stress, pregnancy, and migration patterns.This study provides baseline SIA data for four Gulf of Maine mysticete species and serves as a benchmark for future assessments. www.aquaticmammalsjournal.org Please do not hesitate to contact us for any a copy of the PDF or with questions.
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