Publications by authors named "Kirstin S Meyer-Kaiser"

Article Synopsis
  • Coral reefs worldwide are facing threats from ocean warming, making it crucial to identify coral varieties that can withstand higher temperatures for conservation purposes.
  • The study examines three genetically distinct but morphologically similar coral lineages (L1, L2, L3) across different reef conditions: classic reefs with typical environments and extreme reefs with higher temperatures and light challenges.
  • Results indicate that each lineage has adapted differently to their environments, with L1 being a classic reef specialist, L3 as an extreme reef specialist, and L2 acting as a generalist, highlighting the varying strategies corals use to survive under stress.
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Understanding how diversity evolves and is maintained is critical to predicting the future trajectories of ecosystems under climate change; however, our understanding of these processes is limited in marine systems. Corals, which engineer reef ecosystems, are critically threatened by climate change, and global efforts are underway to conserve and restore populations as attempts to mitigate ocean warming continue. Recently, sequencing efforts have uncovered widespread undescribed coral diversity, including 'cryptic lineages'-genetically distinct but morphologically similar coral taxa.

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An estimated three million shipwrecks exist worldwide and are recognized as cultural resources and foci of archaeological investigations. Shipwrecks also support ecological resources by providing underwater habitats that can be colonized by diverse organisms ranging from microbes to megafauna. In the present article, we review the emerging ecological subdiscipline of shipwreck ecology, which aims to understand ecological functions and processes that occur on shipwrecks.

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Ocean warming is killing corals, but heat-tolerant populations exist; if protected, they could replenish affected reefs naturally or through restoration. Palau's Rock Islands experience consistently higher temperatures and extreme heatwaves, yet their diverse coral communities bleach less than those on Palau's cooler outer reefs. Here, we combined genetic analyses, bleaching histories and growth rates of Porites cf.

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Underwater cultural heritage (UCH) supports marine biodiversity and influences connectivity. UCH structure, colonizing organisms, and anthropogenic stressors interact to shape sites over time, but these interactions are poorly understood. Here, we express the urgent need for biology-archeology collaborations to address interdisciplinary questions.

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Shipwrecks are irreplaceable historical resources and valuable biological habitats. Understanding the environmental and anthropogenic factors affecting shipwrecks is critical for preservation in situ. We used remotely operated vehicles to study the benthic invertebrate communities on four shipwrecks in Stellwagen Bank National Marine Sanctuary (SBNMS, North Atlantic, USA).

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The swimming behavior of invertebrate larvae can affect their dispersal, survival and settlement in the ocean. Modeling this behavior accurately poses unique challenges as behavior is controlled by both physiology and environmental cues. Some larvae use cilia to both swim and create feeding currents, resulting in potential trade-offs between the two functions.

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