Site

Search results

1. Genetic variation for the tolerance to extreme temperatures in wild and cultivated sunflower (Helianthus annuus L.) during early vegetative phases

   https://mercerlab.cfaes.ohio-state.edu/about-us/publications/genetic-variation-tolerance-extreme-temperatures-wild-and-cultivated-sunflower

   al_2020 Genetic variation for tolerance to extreme temperatures in wild and cultivated sunflower.pdf ...

2. Transcriptional differentiation of UV-B protectant genes in maize landraces spanning an elevational gradient in Chiapas, Mexico

   https://mercerlab.cfaes.ohio-state.edu/about-us/publications/transcriptional-differentiation-uv-b-protectant-genes-maize-landraces-spanning

   Kost et al 2020 Transcriptional differentiation of UV-B protectant genes in maize landraces spanning an ...

3. Environmental Film Series: Toxic Puzzle- Columbus, Ohio

   https://advancement.cfaes.ohio-state.edu/events/environmental-film-series-toxic-puzzle-columbus-ohio

   showing is “Toxic Puzzle” with OSU Wexner Medical Center ALS neurologist, Adam Quick, MD and recently ...

4. Associate Members

   https://aede.osu.edu/research/environmental-policy-initiative/membership/associate-members

   Associate Members Amany Al-Taweel Chemistry and School of Natural Resources Email: ... Al-taweel.1@osu.edu Uma Challa Agricultural, Environmental, and Development Economics Email: Challa.3@osu.edu Sang-Lin ...

5. Estimate Ammonia (NH3) Emissions from Manure-Belt Layer Houses: An Effective Modeling Tool

   https://ohioline.osu.edu/factsheet/AEX-723.5

   This fact sheet introduces an effective tool developed by the Ohio Agricultural Research and ... by researchers of The Ohio State University (Keener et al., 2002; Keener and Zhao, 2008; and Wang et ... al., 2014) to effectively estimate NH 3 emissions from poultry layer facilities without the need to ...

6. Anderson et al: Soybean [Glycine max (L.) Merr.] Breeding: History, Improvement, Production and Future Opportunities

   https://mchalelab.cfaes.ohio-state.edu/https%3A//link.springer.com/chapter/10.1007/978-3-030-23400-3_12

   Merr.] Breeding: History, Improvement, Production and Future Opportunities. In: Al-Khayri J, Jain S, ...

7. Modeled distributions and conservation status of the wild relatives of chile peppers (Capsicum L.)

   https://mercerlab.cfaes.ohio-state.edu/about-us/publications/modeled-distributions-and-conservation-status-wild-relatives-chile-peppers

   Khoury_et_al-2019-Diversity_and_Distributions.pdf ...

8. Germination response of diverse wild and landrace chile peppers (Capsicum spp.) under drought stress simulated with polyethylene glycol

   https://mchalelab.cfaes.ohio-state.edu/about-us/publications/germination-response-diverse-wild-and-landrace-chile-peppers-capsicum%C2%A0spp

   16, 2020 Bernau et al 2020 Germination response of diverse wild and cultivated chile pepper to drought ...

9. Germination response of diverse wild and landrace chile peppers (Capsicum spp.) under drought stress simulated with polyethylene glycol

   https://mercerlab.cfaes.ohio-state.edu/about-us/publications/germination-response-diverse-wild-and-landrace-chile-peppers-capsicum-spp

   16, 2020 Bernau et al 2020 Germination response of diverse wild and cultivated chile pepper to drought ...

10. Natural genetic variation in dynamic photosynthesis correlated with stomatal anatomical traits in diverse tomato species across geographical habitats

    https://mercerlab.cfaes.ohio-state.edu/about-us/publications/natural-genetic-variation-dynamic-photosynthesis-correlated-stomatal

    et al 2024 Natural genetic variation in dynamic photosynthesis.pdf ...

Pages