Goetz Eleanor J, Hull Pincelli M, Varekamp Johan, Thomas Ellen
Department of Earth and Planetary Sciences, Yale University, 210 Whitney Ave., New Haven, CT 06511, USA.
Yale Peabody Museum, 170 Whitney Ave., New Haven, CT 06511, USA.
Sci Adv. 2025 Sep 5;11(36):eadv9447. doi: 10.1126/sciadv.adv9447. Epub 2025 Sep 3.
Resolving timing of the invasion of nonindigenous species is difficult in estuarine settings, due to their pervasive history of anthropogenic disturbance. Many non-native marine taxa are not documented until after they have become invasive, leaving questions about invasion timing (first introduction and lag period), geographic origin, vectors and pathways, and cause(s) of success. Foraminifera, unicellular, calcareous-shelled eukaryotes, offer a unique way of analyzing past ecosystem structure because their fossilized shells provide a window into the past, and small size and abundance enable us to document distribution over time in core samples. We use records of Foraminifera to document the timing and history of establishment of an invasive species () in Long Island Sound, east of New York City (USA). was rare from the mid-19th century but did not proliferate until the mid-1970s. We hypothesize that increasing propagule pressure from the rapid increase in global ship traffic and ballast water was the main factor for its success.
由于河口地区存在普遍的人为干扰历史,确定非本土物种的入侵时间很困难。许多非本土海洋分类群在成为入侵物种之后才被记录下来,这就留下了关于入侵时间(首次引入和滞后期)、地理起源、传播媒介和途径以及成功原因等问题。有孔虫是单细胞、具钙质外壳的真核生物,它们提供了一种分析过去生态系统结构的独特方法,因为它们的化石外壳为了解过去提供了一个窗口,而且其体积小、数量多,使我们能够记录岩芯样本中随时间的分布情况。我们利用有孔虫记录来确定一种入侵物种()在美国纽约市以东的长岛海峡的建立时间和历史。从19世纪中叶起就很罕见,但直到20世纪70年代中期才开始大量繁殖。我们推测,全球船舶运输和压载水的迅速增加导致繁殖体压力上升是其成功的主要因素。
