Species and physiographic factors drive Indian cucumber root and Canada mayflower plant chemistry: Implications for white-tailed deer forage quality

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• Created

  April 17, 2025 18:35 by Researcher Metadata Database

• Added Navarro_etal_2023_JEnvMgmt_Species_and_physiographic_factors_drive_Indian_cucumber_root_and_Canada_mayflower_plant_chemistry_OPEN-1.pdf

  April 17, 2025 18:35 by Researcher Metadata Database

• Added Creator Nico Navarro

  April 17, 2025 18:35 by Researcher Metadata Database

• Added Creator Duane R. Diefenbach

  April 17, 2025 18:35 by Researcher Metadata Database

• Added Creator Marc Eric McDill

  April 17, 2025 18:35 by Researcher Metadata Database

• Added Creator M E Mc Dill

  April 17, 2025 18:35 by Researcher Metadata Database

• Added Creator Emily J. Domato

  April 17, 2025 18:35 by Researcher Metadata Database

• Added Creator Christopher S. Rosenberry

  April 17, 2025 18:35 by Researcher Metadata Database

• Added Creator Patrick J Drohan

  April 17, 2025 18:35 by Researcher Metadata Database

• Published

  April 17, 2025 18:35 by Researcher Metadata Database

• Updated

  April 17, 2025 22:05 by [unknown user]

• Updated Keyword, Description, Publication Date Show Changes

  May 01, 2025 10:58 by avs5190

  Keyword

  • Medeola virginiana (Indian cucumber root), Maianthemum canadense (Canada mayflower), Odocoileus virginianus (White-tailed deer), Soil chemistry, Forage, Ecological site

  Description

  • Nutrition is fundamental to white-tailed deer (Odocoileus virginianus) management given its relationship to habitat carrying capacity and population productivity. Ecological Sites (ESs) are a United States federal landscape management unit of specific land potential due to unique soils, topography, climate, parent material, and perhaps deer forage nutritional value. We present results of a study that extends the use of ESs to inform white-tailed deer management by evaluating indicator plant chemistry in two spring forb species, Indian cucumber root (Medeola virginiana) and Canada mayflower (Maianthemum canadense), across the northcentral Appalachians. We sampled spring forbs and underlying soils across two ESs: Dry, upland, oak–maple–hemlock hardwood forest (OMH) and Deep soil, high slope, northern hardwood forests (NHF). Plant elemental content, soil pH, and site aspect, slope and elevation were measured. Our results show that forb chemistry differs between species and within a species geographically. Indian cucumber root, as compared to Canada mayflower, has significantly higher Mg, Na, Cu, Fe, and Zn, and lower Mn. Canada mayflower in the NHF ES, versus OMH ES, was found to have significantly higher K, Mn, and B. Indian cucumber root in the NHF ES, versus the OMH ES, was found to have significantly higher Mg, Al, Fe, and Ca:P ratio but lower K. Linear discriminant analysis shows that plant tissue Mn was the best discriminator between species, and between ESs, Canada mayflower plant tissue Mn and Indian cucumber plant tissue P, K, Ca, Mg and Mn were best discriminators. Given that nutrition determines habitat carrying capacity, differences in forage nutrition between ESs may have different potentials to support deer. Forage nutrition is an important aspect of deer habitat conditions and carrying capacity, thus ESs are likely to support deer populations with different growth potential, which means that even if the same plant species occur in different ESs their nutritional value to deer may differ.
  • Nutrition is fundamental to white-tailed deer (_Odocoileus virginianus_) management given its relationship to habitat carrying capacity and population productivity. Ecological Sites (ESs) are a United States federal landscape management unit of specific land potential due to unique soils, topography, climate, parent material, and perhaps deer forage nutritional value. We present results of a study that extends the use of ESs to inform white-tailed deer management by evaluating indicator plant chemistry in two spring forb species, Indian cucumber root (_Medeola virginiana_) and Canada mayflower (_Maianthemum canadense_), across the northcentral Appalachians. We sampled spring forbs and underlying soils across two ESs: Dry, upland, oak–maple–hemlock hardwood forest (OMH) and Deep soil, high slope, northern hardwood forests (NHF). Plant elemental content, soil pH, and site aspect, slope and elevation were measured. Our results show that forb chemistry differs between species and within a species geographically. Indian cucumber root, as compared to Canada mayflower, has significantly higher Mg, Na, Cu, Fe, and Zn, and lower Mn. Canada mayflower in the NHF ES, versus OMH ES, was found to have significantly higher K, Mn, and B. Indian cucumber root in the NHF ES, versus the OMH ES, was found to have significantly higher Mg, Al, Fe, and Ca:P ratio but lower K. Linear discriminant analysis shows that plant tissue Mn was the best discriminator between species, and between ESs, Canada mayflower plant tissue Mn and Indian cucumber plant tissue P, K, Ca, Mg and Mn were best discriminators. Given that nutrition determines habitat carrying capacity, differences in forage nutrition between ESs may have different potentials to support deer. Forage nutrition is an important aspect of deer habitat conditions and carrying capacity, thus ESs are likely to support deer populations with different growth potential, which means that even if the same plant species occur in different ESs their nutritional value to deer may differ.

  Publication Date

  • 2023-01-15
  • 2022-11-16
• Deleted Creator M E Mc Dill

  May 01, 2025 10:58 by avs5190

• Renamed Creator Marc E. McDill Show Changes

  May 01, 2025 10:58 by avs5190

  • Marc Eric McDill
  • Marc E. McDill
• Updated Creator Emily J. Domato

  May 01, 2025 10:58 by avs5190

• Updated Creator Christopher S. Rosenberry

  May 01, 2025 10:58 by avs5190

• Renamed Creator Patrick J. Drohan Show Changes

  May 01, 2025 10:58 by avs5190

  • Patrick J Drohan
  • Patrick J. Drohan