Development of a statistical adaptive monitoring framework for sea otters in Glacier Bay, Alaska

Post Date

September 5th 2015

Application Due Date

September 15th 2015

This is a notice of intent to award to Colorado State University. Applications will only be accepted from CSU.

Funding Opportunity Number

P15AS00392

CFDA Number(s)

15.944

Funding Instrument Type(s)

Cooperative Agreement

Funding Activity Categories

Natural Resources

Number of Awards

1

Eligibility Categories

Public and State Controlled Institutions of Higher Education

Funding

• Estimated Total Funding:

  $120000

• Award Range:

  $120000 - $650000

Grant Description

Marine Predators were chosen as a priority monitoring indicator, or ___Vital Sign___ of the Glacier Bay ecosystem, during development of the Southeast Alaska Network (SEAN) Vital Signs Monitoring Plan (Moynahan and Johnson 2008). At the time, it was envisioned that multi-species or community-based methods being employed by the USGS would be utilized to deliver this vital sign monitoring effort. However, initial reviews of these methods revealed that the design yielded low power for detecting trends for any one species (Drew et al. 2008), potentially obscuring important ecosystem responses. As such, the focus eventually transitioned towards selection of suitable indicator species and away from a community-based approach. Initial efforts to rank candidate indicator species included a survey of marine ecologists with experience working in Glacier Bay. Results indicated support for monitoring a variety of species, with the sea otter collectively ranked as the highest priority. Furthermore, prior efforts by the USGS provide a solid foundation for development of a sea otter monitoring protocol for Glacier Bay. For the past two decades, the USGS has maintained a comprehensive research effort quantifying sea otter abundance, sea otter foraging behavior, and benthic invertebrate communities to study the role that colonizing sea otters may have in Glacier Bay (Esslinger et al. 2013, Bodkin et al. 2007, Estes & Duggins 1995; Donnellan et al. 2004; Bodkin et al. 2007; Weitzman et al. 2013). Sea otters were extirpated from southeastern Alaska by commercial fur hunting prior to 1911 and later reintroduced by the State of Alaska in the 1960___s. Following reintroduction, sea otter populations grew exponentially in southeastern Alaska, eventually expanding into Glacier Bay around 1993. Since that point, sea otter abundance has grown at an unprecedented rate of 42% per year (Esslinger et al. 2013). Strong effects of sea otter predation on nearshore community structure have been well-documented in areas of rocky substrate in the North Pacific Ocean (e.g. Estes and Duggins 1995) and there is considerable interest in understanding the potential top-down effects and bottom-up responses of sea otters within Glacier Bay where unconsolidated sediments are more common. This new project builds upon an existing population monitoring data set with the objectives of developing a statistical monitoring framework to produce an adaptive design that maximizes efficiency to estimate sea otter abundance in Glacier Bay as the foundation for understanding both top-down and bottom-up drivers of the nearshore benthic food web.

Contact Information

• Agency

  Department of the Interior

• Office:

  National Park Service

• Agency Contact:

  Erica Cordeiro
  Erica_Cordeiro@nps.gov
  

• Agency Mailing Address:

  Erica_Cordeiro@nps.gov

• Agency Email Address:

  Erica_Cordeiro@nps.gov

• More Information:

  http://www.grants.gov