Item talk:Q44840: Difference between revisions

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     url: https://www.usgs.gov/centers/great-lakes-science-center
     url: https://www.usgs.gov/centers/great-lakes-science-center
   roleName: Biologist
   roleName: Biologist
   startDate: '2024-05-10T20:41:33.324705'
   startDate: '2024-05-10T21:06:06.576642'
- '@type': Occupation
- '@type': Occupation
   additionalType: self-claimed professional experience
   additionalType: self-claimed professional experience
Line 94: Line 94:
     name: U.S. Geological Survey
     name: U.S. Geological Survey
   name: staff member
   name: staff member
   startDate: '2024-05-10T20:41:33.321151'
   startDate: '2024-05-10T21:06:06.572880'
name: Wesley A Bickford, PhD
name: Wesley A Bickford, PhD
url: https://www.usgs.gov/staff-profiles/wesley-a-bickford
url: https://www.usgs.gov/staff-profiles/wesley-bickford

Revision as of 13:22, 11 May 2024

'@context': https://schema.org '@type': Person affiliation: [] description: - '@type': TextObject 

 abstract: Biologist with the Great Lakes Science Center
 additionalType: short description

- '@type': TextObject 

 abstract: My research interests lie in wetland ecology, invasive species, and plant-microbial
   interactions. Specifically, I explore new and innovative restoration and invasive
   species management strategies that use molecular biology, community ecology, and
   plant-soil interactions as a foundation. My research is focused on adding new
   tools to complement conventional restoration strategies.
 additionalType: staff profile page introductory statement

- '@type': TextObject 

 abstract: Improving restoration strategies through intervention of microbial symbiosis.Microbes
   are everywhere. In humans, they are vastly important to health and bodily function.
   Likewise, bacteria and fungi play hugely important roles in nutrient availability
   in soils, nutrient acquisition by plants, and plant tolerances to extreme conditions.
   Management outcomes depend heavily upon the proper links between plants and their
   microbiomes.-Microbial interactions could make invasive plants more competitive
   and aggressive. Therefore, management approaches that target microbial interactions
   could decrease the expansion and aggressiveness of invasive species. We are working
   on developing such management tools by testing the impacts of disruption in microbial
   symbiosis on invasive plant health, nutrient acquisition, and expansion.-Success
   of native plant restoration is often predicated upon the proper microbial partners.
   In addition, invasive species soil microbial legacies could undermine restoration
   success after removal. Therefore, we are exploring the roles of soil microbes
   in successful restoration of plants of ecological and cultural importance and
   developing strategies for improving native species restoration.
 additionalType: personal statement

email: wbickford@usgs.gov hasCredential: - '@type': EducationalOccupationalCredential 

 name: Ph.D. Ecology and Evolutionary Biology, University of Michigan 2020

- '@type': EducationalOccupationalCredential 

 name: M.S. Wetland Science, University of Maryland 2011

- '@type': EducationalOccupationalCredential 

 name: B.S. Environmental Science (Ecosystem Science), Indiana University 2007

hasOccupation: - '@type': OrganizationalRole 

 affiliatedOrganization:
   '@type': Organization
   name: Great Lakes Science Center
   url: https://www.usgs.gov/centers/great-lakes-science-center
 roleName: Biologist
 startDate: '2024-05-10T21:06:06.576642'

- '@type': Occupation 

 additionalType: self-claimed professional experience
 name: Biologist, 2020-Present, USGS - Great Lakes Science Center, Ann Arbor, MI

- '@type': Occupation 

 additionalType: self-claimed professional experience
 name: Pathways Ecologist, 2014-2020, USGS - Great Lakes Science Center, Ann Arbor,
   MI

- '@type': Occupation 

 additionalType: self-claimed professional experience
 name: Wetland Research Technician, 2013-2014, USGS - Great Lakes Science Center,
   Ann Arbor, MI

- '@type': Occupation 

 additionalType: self-claimed professional experience
 name: NOAA Coastal Management Fellow, 2011-2012, New Jersey Office of Coastal Management,
   Trenton, NJ

identifier: - '@type': PropertyValue 

 propertyID: ORCID
 value: 0000-0001-7612-1325

jobTitle: Biologist knowsAbout: - '@type': Thing 

 additionalType: self-claimed expertise
 name: Invasive species

- '@type': Thing 

 additionalType: self-claimed expertise
 name: Microbial ecology

- '@type': Thing 

 additionalType: self-claimed expertise
 name: Plant-microbe interactions

- '@type': Thing 

 additionalType: self-claimed expertise
 name: Wetland ecology

- '@type': Thing 

 additionalType: self-claimed expertise
 name: Restoration ecology

- '@type': Thing 

 additionalType: self-claimed expertise
 name: Phragmites australis

- '@type': Thing 

 additionalType: self-claimed expertise
 name: Wetland ecosystems

memberOf: 

 '@type': OrganizationalRole
 member:
   '@type': Organization
   name: U.S. Geological Survey
 name: staff member
 startDate: '2024-05-10T21:06:06.572880'

name: Wesley A Bickford, PhD url: https://www.usgs.gov/staff-profiles/wesley-bickford

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