A5033871174- Photosynthetic Processes and Mechanisms
- Plant Water Relations and Carbon Dynamics
- Plant responses to elevated CO2
- Leaf Properties and Growth Measurement
- Plant and animal studies
- Species Distribution and Climate Change
- Microbial Community Ecology and Physiology
- Plant nutrient uptake and metabolism
- Horticultural and Viticultural Research
- Plant Stress Responses and Tolerance
- Environmental DNA in Biodiversity Studies
- Growth and nutrition in plants
- Mitochondrial Function and Pathology
- Plant responses to water stress
- Image Enhancement Techniques
- Building Energy and Comfort Optimization
- Light effects on plants
- Color Science and Applications
Michigan State University
2020-2024
University of Salford
2021
The effect of including triose phosphate utilization (TPU) on parameterization the Farquhar, von Caemmerer, Berry model photosynthetic gas exchange measurements is explored. Better fits to data are found even though TPU rarely limits photosynthesis under physiological conditions.
Abstract Increase photorespiration and optimising intrinsic water use efficiency are unique challenges to photosynthetic carbon fixation at elevated temperatures. To determine how plants can adapt facilitate high rates of temperatures while also maintaining water‐use efficiency, we performed in‐depth gas exchange biochemical assays the C 3 extremophile, Rhazya stricta . These results demonstrate that R. supports higher under these correlate with increased activity key photorespiratory...
Premise Leaf morphology is dynamic, continuously deforming during leaf expansion and among leaves within a shoot. Here, we measured the of more than 200 grapevines ( Vitis spp.) over four years modeled changes in shape along shoot to determine whether composite comprising all from single can better capture variation predict species identity compared with individual leaves. Methods Using homologous universal landmarks found grapevine leaves, various morphological features as polynomial...
Plant metabolism faces a challenge of investing enough enzymatic capacity to pathway without overinvestment. As it takes energy and resources build, operate, maintain enzymes, there are benefits drawbacks accurately matching the influx. The relationship between functional physiological load could be explained through symmorphosis, which would quantitatively match Alternatively, plants excess manage unpredictable In this study, we use photorespiration as case study investigate these two...
OpinionPlant Cell & EnvironmentThe triose phosphate utilization limitation of photosynthetic rate: out global models but important for leaf modelsLuke M. Gregory1,2, Alan McClain1,3,4, David Kramer1,3, Jeremy D. Pardo2,4, Kaila E. Smith1,2,4, Oliver L. Tessmer1, Berkley J.Walker1,2, Leonardo G. Ziccardi5, Thomas Sharkey1,31MSU-DOE Plant research Laboratory, Michigan State University, East Lansing, MI 48824 US A2 Department Biology, USA3 Biochemistry and Molecular USA4 Biotechnology Health...
ABSTRACT Premise of study Leaf morphology is dynamic, continuously deforming during leaf expansion and among leaves within a shoot. We measured from over 200 vines four years, modeled changes in shape along the shoot to determine if composite “shape shapes” can better capture variation predict species identity compared individual leaves. Methods Using homologous universal landmarks found grapevine leaves, we various morphological features as polynomial function node. The resulting functions...
Abstract Aim Finding more efficient ways to monitor, and estimate the diversity of, mammalian communities is a major step towards their management conservation. Environmental DNA (eDNA) from river water has recently been shown be viable method for biomonitoring communities. Yet, most of studies date have focused on potential eDNA detect individual species, with little focus describing patterns community structure. In this study, we sampling effort required reliably map distribution...
OpinionPlant Cell & EnvironmentThe triose phosphate utilization limitation of photosynthetic rate: out global models but important for leaf modelsLuke M. Gregory1,2, Alan McClain1,3,4, David Kramer1,3, Jeremy D. Pardo2,4, Kaila E. Smith1,2,4, Oliver L. Tessmer1, Berkley J.Walker1,2, Leonardo G. Ziccardi5, Thomas Sharkey1,31MSU-DOE Plant research Laboratory, Michigan State University, East Lansing, MI 48824 US A2 Department Biology, USA3 Biochemistry and Molecular USA4 Biotechnology Health...