Abigail Libbin Cannon’s research while affiliated with Universidad Autónoma de Baja California Sur and other places

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (1)


Dual maps compare seagrass distributions along the coast. (A) displays records obtained from UNEP-WCMC (2021), while (B) reflects this study’s updated findings, showcasing expanded and refined seagrass locations. Data information with geographic coordinates is available in Datasheet 1 .
Spatial distribution of human stressors and marine heatwave frequencies over seagrass meadows. (A) illustrates a cumulative score for human-induced stressors impacting seagrass meadows, with values ranging from low (0.00) to high (1.00), depicted as a gradient of colors from green (low) to red (high). (B) represents the slope of marine heatwave (MHW) frequencies, calculated for each seagrass locality, with cooler colors indicating lower frequencies and warmer colors denoting higher frequencies. Both panels are geographically aligned to demonstrate the spatial correlation between human activities and thermal anomalies across the studied seagrass habitats.
Bar chart illustrating the distribution of seagrass records by level of protection.
Seagrass research in the Gulf of California by (A) type of document and (B) research topics accumulated over the years.
Updating and validating seagrass ecosystem knowledge in the gulf of California: a comprehensive review
  • Article
  • Full-text available

May 2024

·

173 Reads

·

1 Citation

·

·

·

[...]

·

Seagrasses are globally acknowledged as crucial habitats as they provide a variety of ecosystem services. Mexico’s legislation protects most of these marine plants; however, the protection often fails in application. The Gulf of California, despite being a biodiversity hotspot, has scant data on seagrasses. Here, human activity and climate change increasingly threaten these coastal ecosystems, with conservation and research efforts lacking coordination at a regional level. Our manuscript aimed to review and standardize existing data on Gulf of California seagrass species, ensuring open access for data updates; pinpointing conservation deficiencies; and guiding future research. We have added new records to the official public data, but we were able to recapture only 25% of the seagrass locations meaning a potential reduction in their historical distribution of 45.8%. Even though Mexico’s legislation protects some species of seagrasses, it protection often fails in the application. We identified that only 6.1% of the seagrass locations are within protected areas that recognize their presence in their management plans (e.g., the Balandra Flora and Fauna Protected Area and the Upper Gulf of California and Colorado River Delta Biosphere Reserve). At least 55.9% of seagrass records are associated with potentially damaging activities like pollution, coastal modification or biological resources use, while 23% are exposed to higher frequency of marine heatwaves. Given the importance of seagrass meadows under Mexican law and their internationally recognized ecological value, sharing current information and guiding research is essential. Our study seeks to galvanize renewed research initiatives and raise more awareness on the conservation of the Gulf of California’s seagrasses.

Download

Citations (1)


... In studies focusing on marine carbon sinks, the marine ecosystem is often viewed as a unified entity, with an emphasis on the ecological perspective to assess the role of these sinks in climate change. Specific ecosystems like salt marshes (Chmura, 2013), mangroves (Kandasamy et al., 2021), and seagrass beds (Ramıŕez-Zuñiga et al., 2024) have received attention for their unique ecological functions and ability to sequester carbon. Additionally, the idea of shellfish and algal carbon sinks in marine fisheries is gaining recognition, as these organisms absorb carbon dioxide through photosynthesis and convert it into organic matter (Jia et al., 2023;Li et al., 2024). ...

Reference:

Provincial marine carbon sink transfer in China: structural drivers and key consumption pathways
Updating and validating seagrass ecosystem knowledge in the gulf of California: a comprehensive review