Climate Change and Vegetation Phenology Climate Change In

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Climate Change and Vegetation Phenology

Climate Change and Vegetation Phenology

Climate Change • In the Northeastern US mean annual temperature increased 0. 7°C over

Climate Change • In the Northeastern US mean annual temperature increased 0. 7°C over 30 years (0. 26° C per decade) • Expected another 26°C over next century (Ollinger, S. V. “Potenail effects of climate change and rising CO 2 on ecosystem process in northeastern U. S. forests)

Why does it matter? • Impacts on plant productivity • Competition between plant species

Why does it matter? • Impacts on plant productivity • Competition between plant species • Interaction with other organisms • Food production • Shifts in agricultural • Pest and disease control • Pollen forecasts • Carbon balance of terrestrial ecosystems • Feedback into atmosphere • Water, energy exchange • Timing of migrations and breeding • other ideas?

Phenology is the science that measures the timing of life cycle events in all

Phenology is the science that measures the timing of life cycle events in all organisms Plants tell a story about climate…… Earlier Springs Listening to the story they tell year after year can tell us about climate change Later Falls

Plants provide an excellent context to understand changes in the environment They are extremely

Plants provide an excellent context to understand changes in the environment They are extremely sensitive to: • temperature change • precipitation change • growing degree days

Phenology: A glimpse of ecosystem Impacts Some potential effects: – Wildlife populations – Vegetation

Phenology: A glimpse of ecosystem Impacts Some potential effects: – Wildlife populations – Vegetation health – Species composition and ranges – Water availability – Nutrient cycling and decomposition – Carbon storage

Measuring Phenology Field Observations Satellite Remote Sensing

Measuring Phenology Field Observations Satellite Remote Sensing

Tier 1 Field Based Tier 2 Tier 3 Intensive Sites Ameri. Flux NWS Coop

Tier 1 Field Based Tier 2 Tier 3 Intensive Sites Ameri. Flux NWS Coop Spatially Extensive NPS Inv. & Mon. Science Networks State Ag. Exp. Sta. Nature Spatially Extensive Preserves, Volunteer & Education Networks Campuses Satellite Tier 4 Based Remote Sensing and Synoptic (wall-to-wall) Data NASA USGS NOAA Increasing Process Knowledge Data Quality # of Measurements Decreasing Spatial Coverage How do scientists monitor vegetation phenology? George R. Kish U. S. Geological Survey

Measuring Phenology on the ground Field Observations

Measuring Phenology on the ground Field Observations

Timing of sugar maple leaf drop Monitored at Proctor Maple Research Center Sandra Wilmot

Timing of sugar maple leaf drop Monitored at Proctor Maple Research Center Sandra Wilmot Tom Simmons

Hemispherical Photography Helps us “see” the canopy as a satellite might see it

Hemispherical Photography Helps us “see” the canopy as a satellite might see it

Hemispherical Imagery • Scientists spend big bucks to purchase the equipment and software necessary

Hemispherical Imagery • Scientists spend big bucks to purchase the equipment and software necessary to link ground measurements with satellite imagery. • Calculate canopy closure, transparency, leaf area index, vegetation indices, gap fraction, etc.

Measuring Phenology Satellite Remote Sensing Land surface phenologies in 2000 revealed by three AVHRR

Measuring Phenology Satellite Remote Sensing Land surface phenologies in 2000 revealed by three AVHRR biweekly composites. ” From USA National Phenology Network (USANPN)

How do you see phenology from space? • Chlorophyll, strongly absorbs visible light for

How do you see phenology from space? • Chlorophyll, strongly absorbs visible light for photosynthesis. • Leaf cell structure reflects near-infrared light. • NDVI exploits these characteristics of vegetation reflectance to quantify how much, how dense and how productive vegetation is. http: //www. fao. org/docrep/003/T 0446 E 04. htm

Normalized Difference Vegetation Index NDVI • Negative values of NDVI correspond to water. •

Normalized Difference Vegetation Index NDVI • Negative values of NDVI correspond to water. • Values close to zero correspond to barren areas of rock, sand, or snow. • low, positive values represent shrub and grassland • high values indicate temperate and tropical rainforests.

Corn/Soy belt Central Illinois Kirsten M. de Beurs, Ph. D. Virginia Tech University

Corn/Soy belt Central Illinois Kirsten M. de Beurs, Ph. D. Virginia Tech University

Death Valley What would this NDVI curve look like? Kirsten M. de Beurs, Ph.

Death Valley What would this NDVI curve look like? Kirsten M. de Beurs, Ph. D. Virginia Tech University

Forest Southwest Virginia What would this NDVI curve look like? Kirsten M. de Beurs,

Forest Southwest Virginia What would this NDVI curve look like? Kirsten M. de Beurs, Ph. D. Virginia Tech University

Tundra Northern Alaska What would this NDVI curve look like? Kirsten M. de Beurs,

Tundra Northern Alaska What would this NDVI curve look like? Kirsten M. de Beurs, Ph. D. Virginia Tech University

NDVI for Phenological Dates comparison of NDVI values for different dates • http: //www.

NDVI for Phenological Dates comparison of NDVI values for different dates • http: //www. seiswaves. com/cappelluti/docs/anims/leicester/

Plotting NDVI Use of NDVI to identify key phenological dates Maximum NDVI Rate Gre

Plotting NDVI Use of NDVI to identify key phenological dates Maximum NDVI Rate Gre of enup of Rate ence sc Sene Time Integrate d NDVI Start of Season Duration of Season SOS End of Season

How do you determine dates? Use of NDVI thresholds to identify key phenological dates

How do you determine dates? Use of NDVI thresholds to identify key phenological dates Start of the Season http: //phenology. cr. usgs. gov/methods_metrics. php

Common Thresholds 0. 5 of the Max: Min NDVI ratio to approximate the start

Common Thresholds 0. 5 of the Max: Min NDVI ratio to approximate the start and end of the season EOS Kirsten M. de Beurs, Ph. D. Virginia Tech University

50% Threshold (Seasonal Mid-point) (White et al. , mean day = 124, May 4

50% Threshold (Seasonal Mid-point) (White et al. , mean day = 124, May 4 th)

Other key phenological dates http: //phenology. cr. usgs. gov/methods_metrics. php

Other key phenological dates http: //phenology. cr. usgs. gov/methods_metrics. php

Climate and Vegetation How do climate and vegetationClimate and Vegetation How do climate and vegetation
Section 2 Climate Vegetation 1 Climate Vegetation ofSection 2 Climate Vegetation 1 Climate Vegetation of
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PHAVEOS the PHenology And Vegetation EO Service LankesterPHAVEOS the PHenology And Vegetation EO Service Lankester
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EXPLORING LINKAGES BETWEEN PLANTAVAILABLE SOIL MOISTURE VEGETATION PHENOLOGYEXPLORING LINKAGES BETWEEN PLANTAVAILABLE SOIL MOISTURE VEGETATION PHENOLOGY
Phenology based Classification Model for Vegetation Mapping usingPhenology based Classification Model for Vegetation Mapping using
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Alpine Vegetation Dry and Boggy Katherine Rodriguez VegetationAlpine Vegetation Dry and Boggy Katherine Rodriguez Vegetation
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