Whats new with MODIS NPP and GPP MODIS/VIIRS Science Team Meeting May 20, 2015 Steven W. Running Numerical Terradynamic Simulation Group College of Forestry.

Slides:



Advertisements
Similar presentations
Regional trends in the land carbon cycle and the underlying mechanisms over the period, S. Sitch, P. Friedlingstein, G. Bonan, P. Canadell, P.
Advertisements

The Carbon Farming Initiative and Agricultural Emissions This presentation was prepared by the University of Melbourne for the Regional Landcare Facilitator.
A Simple Production Efficiency Model 1/18 Willem de Kooning ( ) A Tree in Naples.
Gridded Biome-BGC Simulation with Explicit Fire-disturbance Sinkyu Kang, John Kimball, Steve W. Running Numerical Terradynamic Simulation Group, School.
DGVM runs for Trendy/RECCAP S. Sitch, P. Friedlingstein, A. Ahlström, A. Arneth, G. Bonan, P. Canadell, F. Chevallier, P. Ciais, C. Huntingford, C. D.,
Scaling Biomass Measurements for Examining MODIS Derived Vegetation Products Matthew C. Reeves and Maosheng Zhao Numerical Terradynamic Simulation Group.
Extension and application of an AMSR global land parameter data record for ecosystem studies Jinyang Du, John S. Kimball, Lucas A. Jones, Youngwook Kim,
Responses of terrestrial ecosystems to drought
Global Fire Emissions and Fire Effects on Biophysical Properties and the Associated Radiative Forcing Yufang Jin 1, James Randerson 1, G. R. van der Werf.
Magnitude and Spatial Distribution of Uncertainty in Ecosystem Production and Biomass of Amazonia Caused by Vegetation Characteristics Christopher Potter.
Monitoring Effects of Interannual Variation in Climate and Fire Regime on Regional Net Ecosystem Production with Remote Sensing and Modeling D.P. Turner.
Estimating the contribution of agricultural land use to terrestrial carbon fluxes in the continental US Keith Paustian 1,2, Steven Ogle 2, Scott Denning.
US Carbon Trends March 17, USDA Greenhouse Gas Symposium1 Spatial and Temporal Patterns of the Contemporary Carbon Sources and Sinks in the Ridge.
Niall P. Hanan 1, Christopher A. Williams 1, Joseph Berry 2, Robert Scholes 3 A. Scott Denning 1, Jason Neff 4, and Jeffrey Privette 5 1. Colorado State.
03/06/2015 Modelling of regional CO2 balance Tiina Markkanen with Tuula Aalto, Tea Thum, Jouni Susiluoto and Niina Puttonen.
The Role of Models in Remotely Sensed Primary Production Estimates
Climate change, fires, and carbon aerosol over N. America with preliminary detour to discuss GCAP model development (GCAP= Global change and air pollution)
Carbon sequestration in China’s ecosystems, Jingyun Fang Department of Ecology Peking University Feb. 14, 2008.
Effects of Siberian forest fires on regional air quality and meteorology in May 2003 Rokjin J. Park with Daeok Youn, Jaein Jeong, Byung-Kwon Moon Seoul.
Protecting our Health from Climate Change: a Training Course for Public Health Professionals Chapter 2: Weather, Climate, Climate Variability, and Climate.
Kristie J. Franz Department of Geological & Atmospheric Sciences Iowa State University
Global Carbon Cycle Feedbacks: From pattern to process Dave Schimel NEON inc.
Trends in Terrestrial Carbon Sinks Driven by Hydroclimatic Change since 1948: Data-Driven Analysis using FLUXNET Trends in Terrestrial Carbon Sinks Driven.
Trade-offs between sequestration and bioenergy benefits Nicolas VUICHARD (1,2) Philippe CIAIS (2) Luca BELELLI (3) Riccardo VALENTINI (3) (1)CIRED – Nogent.
Fires and the Contemporary Global Carbon Cycle Guido van der Werf (Free University, Amsterdam, Netherlands) In collaboration with: Jim Randerson (UCI,
Spatial and Temporal Patterns of Carbon Exchanges between the Atmosphere and Terrestrial Ecosystems of China Hanqin Tian Ecosystem and Regional Studies.
Paul R. Moorcroft David Medvigy, Stephen Wofsy, J. William Munger, M. Dietze Harvard University Developing a predictive science of the biosphere.
Improving the Representation of Fire Disturbance in Dynamic Vegetation Models by Assimilating Satellite Data E.Kantzas, S.Quegan & M.Lomas School of Maths.
Development of the Temperate Shrub Submodel for the Community Land Model-Dynamic Global Vegetation Model (CLM-DGVM) Xubin Zeng Xiaodong Zeng Mike Barlage.
Environmental controls and predictions of African vegetation dynamics Martin Jung, Eric Thomas Department of Biogeochemical Integration.
1 Remote Sensing and Image Processing: 9 Dr. Hassan J. Eghbali.
Results from the Carbon Cycle Data Assimilation System (CCDAS) 3 FastOpt 4 2 Marko Scholze 1, Peter Rayner 2, Wolfgang Knorr 1 Heinrich Widmann 3, Thomas.
The Big Picture To assess the Global Carbon Budget we need information that is ‘Everywhere, All of the Time’ Many Complementary Methods exist, Each with.
Integrating Remote Sensing, Flux Measurements and Ecosystem Models Faith Ann Heinsch Numerical Terradynamic Simulation Group (NTSG) University of Montana.
Translation to the New TCO Panel Beverly Law Prof. Global Change Forest Science Science Chair, AmeriFlux Network Oregon State University.
Earth System Feedbacks: Vulnerability of the Carbon Cycle to Drought and Fire Canberra, Australia 5-8 June 2006 – Part I 8-9 June 2006 – Part II (Australia.
State-of-the-Art of the Simulation of Net Primary Production of Tropical Forest Ecosystems Marcos Heil Costa, Edson Luis Nunes, Monica C. A. Senna, Hewlley.
Future climate change drives increases in forest fires and summertime Organic Carbon Aerosol concentrations in the Western U.S. Dominick Spracklen, Jennifer.
A FIRST LOOK AT THE MODIS 8-DAY PSN DATA FOR 2001 MODIS Science Team Mtg 19 December 2001 Steven W. Running NTSG, Univ. of Montana.
Importance of Recent Shifts in Soil Thermal Dynamics on Growing Season Length, Productivity, and Carbon Sequestration in Terrestrial High-Latitude Ecosystems.
Gridded Biome-BGC Simulation with Explicit Fire-disturbance Sinkyu Kang, John Kimball, Steve W. Running Numerical Terradynamic Simulation Group, School.
Vegetation Processes and Carbon Cycle. Evapotranspiration: ETa Simplified Land Surface Temperature (SLST) model Using MODIS Terra Operational version.
Flux observation: Integrating fluxes derived from ground station and satellite remote sensing 王鹤松 Hesong Wang Institute of atmospheric physics, Chinese.
Application of the ORCHIDEE global vegetation model to evaluate biomass and soil carbon stocks of Qinghai-Tibetan grasslands Tan Kun.
AAG 2010 Washington DC Savanna Vegetation Changes as Influenced by Climate in East Africa Gopal Alagarswamy, Chuan Qin, Jiaguo Qi, Jeff Andresen, Jennifer.
Global Warming and Water Resources. Frequently asked Questions Is global warming occurring? Why does global warming occur? How do we predict global warming?
Variations in Continental Terrestrial Primary Production, Evapotranspiration and Disturbance Faith Ann Heinsch, Maosheng Zhao, Qiaozhen Mu, David Mildrexler,
Goal: to understand carbon dynamics in montane forest regions by developing new methods for estimating carbon exchange at local to regional scales. Activities:
MODIS Net Primary Productivity (NPP)
Tom Breider, Loretta Mickley, Daniel Jacob, Cui Ge, Jun Wang, Melissa Payer, Betty Croft, David Ridley, Sangeeta Sharma, Kostas Eleftheriadis, Joe McConnell,
Figure 1. (A) Evapotranspiration (ET) in the equatorial Santarém forest: observed (mean ± SD across years of eddy fluxes, K67 site, blue shaded.
A Remote Sensing Approach for Estimating Regional Scale Surface Moisture Luke J. Marzen Associate Professor of Geography Auburn University Co-Director.
Dr. Monia Santini University of Tuscia and CMCC CMCC Annual Meeting
Enabling Ecological Forecasting by integrating surface, satellite, and climate data with ecosystem models Ramakrishna Nemani Petr Votava Andy Michaelis.
Arctic RIMS & WALE (Regional, Integrated Hydrological Monitoring System & Western Arctic Linkage Experiment) John Kimball FaithAnn Heinsch Steve Running.
REMOTE SENSING FOR VEGETATION AND LAND DEGRADATION MONITORING AND MAPPING Maurizio Sciortino, Luigi De Cecco, Matteo De Felice, Flavio Borfecchia ENEA.
Figure 10. Improvement in landscape resolution that the new 250-meter MODIS (Moderate Resolution Imaging Spectroradiometer) measurement of gross primary.
Comparison of GPP from Terra-MODIS and AmeriFlux Network Towers
Department of Atmospheric Sciences
Continental Modeling and Analysis of the North American Carbon Cycle
OGWC – Forest C Bev Law Prof. Global Change Biology & Terrestrial Systems Science Oregon State University Oct 6, 2016.
Marcos Heil Costa Universidade Federal de Viçosa
Jean-François Exbrayat1 T.L. Smallman1, A.A. Bloom2, M. Williams1
Ecosystem Productivity
Growing temperate shrubs over arid to semi-arid regions in CLM-DGVM
Adam Butler & Glenn Marion, Biomathematics & Statistics Scotland •
Ensemble Ecosystem Model Experiment and Intercomparison using the Terrestrial Observation and Prediction System (TOPS) Weile Wang, Jennifer L. Dungan,
K Emittance at 6000K (106 W m-2 μm-1) 50 Emittance at 288K (W m-2 μm-1) K
Enhanced seasonal CO2 exchange caused by amplified plant productivity in northern ecosystems by Matthias Forkel, Nuno Carvalhais, Christian Rödenbeck,
Presentation transcript:

Whats new with MODIS NPP and GPP MODIS/VIIRS Science Team Meeting May 20, 2015 Steven W. Running Numerical Terradynamic Simulation Group College of Forestry and Conservation University of Montana

GLOBAL NPP TREND

From 2000 – ,000 new wells / year 3 million ha land lost 4.5 Tg C of NPP lost / yr

NPP driven carbon sink (Poulter et al 2014) For example, in Australia: 45% increase in NPP (LPJ and MODIS) 9% increase in Rh (LPJ) 29% decrease in fire emissions from GFED & GFAS observations Net effect 0.84 Pg C sink in Australia Explained 60% of global anomaly Semi arid regions explained 51% of total land sink in 2011 Climate attribution -Precipitation driven -Regional lag effects -Enhanced soil moisture from 2010 precipitation in semi-arid regions -Decrease in tropical Rh after 2010 drought

Croplands show largest LUE opt variability. MOD17 LUE max < LUE opt for CRO, GRA, DBF MOD17 LUE max > LUE opt for CSH. Aggregating LUE opt variability within coarse plant functional type (PFT) classes leads to large model LUE and GPP error. Spatially explicit estimation of optimal light use efficiency for improved satellite data driven ecosystem productivity modeling. Nima Madani, John S. Kimball, Steve W. Running. AGU 2014 Spatial variability in LUE opt

Traits Topogra phy Soil water Crop areas Percent cover 45 Tower Training sites 17 Tower Testing sites LUE opt

Global Annual 1-km ET over Global average MODIS ET over vegetated land surface is ± mm yr -1.

MOD 16/17 with 1km daily meteorology, with USGS

Net Primary Productivity Indicator > 80 gC m 2 yr -1 > 40 gC m 2 yr -1 > 0 gC m 2 yr -1 < 0 gC m 2 yr -1 < -40 gC m 2 yr -1 < -80 gC m 2 yr -1 NPP (gC/m 2 ) Percentage of area above or below the 13-year NPP average

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.