Poster Session Advances in Evaporation and Evaporative Demand (Posters)

Tuesday, 8 January 2019: 4:00 PM-6:00 PM
Hall 4 (Phoenix Convention Center - West and North Buildings)
Host: 33rd Conference on Hydrology
Cochairs:
Martha C. Anderson, USDA-ARS, Hydrology and Remote Sensing Laboratory, Beltsville, MD; Christopher Hain, NASA Marshall Space Flight Center, Earth Science Branch, Huntsville, AL and Justin Huntington, Desert Research Institute, Division of Hydrologic Services, Reno, NV

Advances in the estimation of evapotranspiration (ET) and atmospheric evaporative demand (Eo) are made across a broad range of scales and techniques, from in-situ observations to remote sensing and modeling. Specific topics for this session may include but are not limited to: (1) estimating ET from various perspectives: remote sensing platforms, ground-based point observations and parameterizations, plant-based experimentation, and water budgets; (2) operational ET estimation; (3) land surface-atmosphere feedbacks; (4) future remote sensing missions and needs for ET; (5) Eo as an input to operational LSMs to derive ET, schedule crop irrigation, and as a metric of hydroclimatic trends and variability. New methods are emerging to more robustly partition total ET between evaporation and transpiration fluxes from both a modeling and a measurement perspective. We encourage papers with a focus on information conveyed by E and T, as well as ET. This year, recognizing that transpiration is regulated through vegetation hydrodynamics, we are particularly seeking submissions relating to both experimental and theoretical work linking plant hydrodynamics, ecology, hydrology, and meteorology. Understanding and simulating these hydraulic behaviors of vegetation and their outcomes, in terms of water and carbon flux, is key to improving land-surface and hydrologic models. Advances in remote sensing of water content and new databases compiling extensive monitoring records of site- and plant-level water flux and hydraulic trait data are poised for incorporation into such models through an emerging body of vegetation hydrodynamics modeling frameworks.

Papers:
410
The Impact of Vegetation Dynamics on Surface Fluxes in the Noah‐MP Land Surface Model
Atefeh Hosseini, Univ. of Kansas, Lawrence, KS; and J. K. Roundy and N. Brunsell

413
Evapotranspiration in the Congo Basin Determined by a Remotely Sensed Water Balance
Michael W. Burnett, Stanford Univ., Stanford, CA; and A. G. Konings

414
Development of Evapotranspiration Climatology for Indiana
Sajad Jamshidi, Purdue Univ., West Lafayette, IN; and D. Niyogi

415
A Shootout between Forecast Reference Evapotranspiration (FRET) and ZiaMet Weather Station Data for Calculating Reference ET
Stanley Engle, New Mexico State Univ., Las Cruces, NM; and D. W. DuBois and J. Shoemake

416
A Framework for Mapping Global Evapotranspiration using 375-m VIIRS LST
Martha C. Anderson, USDA-ARS, Beltsville, MD; and C. R. Hain, M. A. Schull, and C. M. U. Neale

- Indicates paper has been withdrawn from meeting
- Indicates an Award Winner