Remotely-Sensing Chemical Diversity and Function of Native Plants Across Sagebrush-Steppe Landscapes

Brecken C. Robb; Jennifer S. Forbey; Nancy Glenn; Trevor Caughlin; Donna Delparte; Jessica Mitchell; Carolyn Dadabay; Peter Olsoy; Janet Rachlow; Lisa Shipley; Jordan Nobler; Marcella Fremgen; Chelsea Merriman; Graham Frye; Jack Connelly

Remotely-Sensing Chemical Diversity and Function of Native Plants Across Sagebrush-Steppe Landscapes

Brecken C. Robb
, Jennifer S. Forbey
, Nancy Glenn
, Trevor Caughlin
, Donna Delparte
, Jessica Mitchell
, Carolyn Dadabay
, Peter Olsoy
, Janet Rachlow
, Lisa Shipley
, Jordan Nobler
, Marcella Fremgen
, Chelsea Merriman
, Graham Frye
, Jack Connelly

Research output: Contribution to conference › Presentation

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Abstract

Plant chemical diversity provides ecosystem services by supporting wildlife diversity and offering sources for novel medicines. Current mapping of phytochemicals can be expensive, time-intensive and provides only a snapshot of available diversity. To overcome this, I will use handheld and airborne instruments collecting near infrared spectra and hyperspectral imagery to remotely sense chemical diversity within plants and ecosystems. I hypothesize that greater plant chemical diversity will be correlated with greater habitat use by wildlife and greater bioactivity of plant extracts. This research provides a powerful tool to map chemical diversity, target wildlife conservation and direct the discovery of novel medicines.

Original language	American English
State	Published - 12 Apr 2018

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Remotely-Sensing Chemical Diversity and Function of Native PlantsFinal published version, 2.69 MBLicense: Unspecified
Remotely-Sensing Chemical Diversity and Function of Native PlantsFinal published version, 2.69 MBLicense: Unspecified

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title = "Remotely-Sensing Chemical Diversity and Function of Native Plants Across Sagebrush-Steppe Landscapes",

abstract = " Plant chemical diversity provides ecosystem services by supporting wildlife diversity and offering sources for novel medicines. Current mapping of phytochemicals can be expensive, time-intensive and provides only a snapshot of available diversity. To overcome this, I will use handheld and airborne instruments collecting near infrared spectra and hyperspectral imagery to remotely sense chemical diversity within plants and ecosystems. I hypothesize that greater plant chemical diversity will be correlated with greater habitat use by wildlife and greater bioactivity of plant extracts. This research provides a powerful tool to map chemical diversity, target wildlife conservation and direct the discovery of novel medicines.",

author = "Robb, \{Brecken C.\} and Forbey, \{Jennifer S.\} and Nancy Glenn and Trevor Caughlin and Donna Delparte and Jessica Mitchell and Carolyn Dadabay and Peter Olsoy and Janet Rachlow and Lisa Shipley and Jordan Nobler and Marcella Fremgen and Chelsea Merriman and Graham Frye and Jack Connelly",

year = "2018",

month = apr,

day = "12",

language = "American English",

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TY - CONF

T1 - Remotely-Sensing Chemical Diversity and Function of Native Plants Across Sagebrush-Steppe Landscapes

AU - Robb, Brecken C.

AU - Forbey, Jennifer S.

AU - Glenn, Nancy

AU - Caughlin, Trevor

AU - Delparte, Donna

AU - Mitchell, Jessica

AU - Dadabay, Carolyn

AU - Olsoy, Peter

AU - Rachlow, Janet

AU - Shipley, Lisa

AU - Nobler, Jordan

AU - Fremgen, Marcella

AU - Merriman, Chelsea

AU - Frye, Graham

AU - Connelly, Jack

PY - 2018/4/12

Y1 - 2018/4/12

N2 - Plant chemical diversity provides ecosystem services by supporting wildlife diversity and offering sources for novel medicines. Current mapping of phytochemicals can be expensive, time-intensive and provides only a snapshot of available diversity. To overcome this, I will use handheld and airborne instruments collecting near infrared spectra and hyperspectral imagery to remotely sense chemical diversity within plants and ecosystems. I hypothesize that greater plant chemical diversity will be correlated with greater habitat use by wildlife and greater bioactivity of plant extracts. This research provides a powerful tool to map chemical diversity, target wildlife conservation and direct the discovery of novel medicines.

AB - Plant chemical diversity provides ecosystem services by supporting wildlife diversity and offering sources for novel medicines. Current mapping of phytochemicals can be expensive, time-intensive and provides only a snapshot of available diversity. To overcome this, I will use handheld and airborne instruments collecting near infrared spectra and hyperspectral imagery to remotely sense chemical diversity within plants and ecosystems. I hypothesize that greater plant chemical diversity will be correlated with greater habitat use by wildlife and greater bioactivity of plant extracts. This research provides a powerful tool to map chemical diversity, target wildlife conservation and direct the discovery of novel medicines.

UR - https://scholarworks.boisestate.edu/gss_2018/42

M3 - Presentation

ER -

Remotely-Sensing Chemical Diversity and Function of Native Plants Across Sagebrush-Steppe Landscapes

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