Our group seeks to understand fundamental principles that govern the development, responses to stress and evolution of plants. We use broad range of approaches including molecular biology, classical morphology, and experimental physiology. While we are aiming in extending basic knowledge of plant biology, we also apply learned biological principles in development of sustainable agriculture.
The exchange of water for CO2 to synthesize sugars in plant leaves is the most
fundamental process of terrestrial life. Traits related to plant structure, biochemistry, and physiology evolved to
optimize this exchange with in each environment. We aim to understand the fundamental physical limits to plant
form and function to explain patterns of adaptation and acclimation.
Water is essential to life. Our focus is to understand intra- and intercellular transport processes in plants from
the perspective of fluid dynamics, chemistry, and biology.
Carbohydrates metabolism constitutes the major physiological activity allowing plant function.
Non-structural carbohydrates (NSCs) constitute a dynamic pool of plant energy resources that fluctuate in response
to environmental conditions and plant phonological status. We aim to understand physiological and biological activity
of plant related to NSCs management, across spatial and temporal scales from cell to whole organism and from seconds to years.
Translation of basic knowledge to applied technologies is very changing. We use a citizen science approach to involve stakeholders
in our research of carbohydrate management by trees to both accelerate research discover and provide an interface between research
and stakeholders in the form of new tool to determine orchards, health, physiological activity to facilitate and guide agricultural
practices to conserve water, reduce nitrogen input and better predict yield potential.
02/16/2017 -- We have decided on the meeting this year. It is Ecological Society of America in Portland, OR - meet us there
Liquid handler arrived !!! Be first to get naming rigths. It made its firtst plate on 01/16/2017. It is fast, but not faster than Aude
Chill removal from almond buds biophysical bases of predicting bud break time - research program developed and run by Dr. Aude Tixier was presented at Almond Conference in Sacramento 2017
Acclimation of Pistacia integerrima trees to frost in semi-arid environments depends on autumn's drought - accepted in Planta (O. Sperling, F. Secchi, J Godfrey, and M.A. Zwieniecki)
Special lab meeting in PES 2004 - Thursday (17th of November) at 3:00 pm - Kaare Jensen will discuss his research on phloem and leaves
Lab meeting - Friday PES 3001 4:30pm Friday 18 of November - Jessica will be presenting her progress in almond resurection project
Paula's paper got accepted in Tree Physiology - 11/14/16
The Carbohydrate Observatory uses a “citizen science approach”, the citizens being almond, pistachio and walnut growers who send us monthly wood and bark samples from their orchards to be analyzed for sugars and starch. The results are made available through a website that each grower has access to. He or she then track the carbohydrate levels of their nut trees throughout the year while pairing it with pheneological events such as dormancy, pollination, bud break, flowering, fruiting, harvest and leaf drop. The goal is to have a better biological understanding of the role carbohydrates and use this massive data set as a tool to predict yield and understand environmental stresses such as lack of chilling hours and drought.
1) Understand how annual patterns of starch and TNC differ throughout the Central Valley, which will aid in the improvement of spring/fall management practices and our understanding of chilling requirements.
2) To develop a tool that uses starch and TNC levels as a predictor of yield for the following year and to understand variable crop yields.
3) Create an easy interactive map for growers to use that displays all of the data across the Central Valley.
If you would like to contribute to Carbohydrate Observatory Z-Lab research effort please contact Maciej Zwieniecki at email@example.com (gifts to UC Davis may be tax deductible)
Department of Plant Sciences
PES #2316, One Shields Avenue
UC Davis , Davis, CA 95616