A Drought History of Alabama, Georgia and the Panhandle of Florida David Emory Stooksbury, Ph.D. State Climatologist – Associate Professor Engineering.

Slides:

Advertisements

Similar presentations

Summer 2009 Western Fire Season Outlook Overview Significant fire potential is expected to be above normal across much of California, Florida, central.

Advertisements

Essentials of Oceanography

Climate Recap and Seasonal Outlook Dr. John Abatzoglou Assistant Prof, Department of Geography University of Idaho Many Thanks to Eric.

Yavapai County Climate Jeff Schalau Agent, Agriculture & Natural Resources University of Arizona Cooperative Extension Yavapai County.

National Integrated Drought Information System Drought Early Warning for the Apalachicola- Chattahoochee-Flint River Basin 22 July 2014.

Seasonal Climate Forecast (Forecast Method) (Revised: May 26, 2012) This product is published by the Oregon Department of Agriculture (ODA), in cooperation.

INTRODUCTORY PHYSICAL GEOGRAPHY. This is NOT a class about remembering the names, locations, or measures of physical features and natural phenomena around.

Jim Noel Service Coordination Hydrologist March 2, 2012

National Integrated Drought Information System Drought Early Warning for the Apalachicola- Chattahoochee-Flint River Basin 17 March 2015.

Inland Northwest Climate Recap and Seasonal Outlook Dr. John Abatzoglou Department of Geography University of Idaho 10 th Annual Climate.

Climate and Food Security Thank you to the Yaqui Valley and Indonesian Food Security Teams at Stanford 1.Seasonal Climate Forecasts 2.Natural cycles of.

Outlook Winter/Spring 2014 John Pendergrast National Weather Service Melbourne, FL

Lesson 11: El Niño Southern Oscillation (ENSO) Physical Oceanography

What Are the El Nino and La Nina?

Using Climate Forecasts in Agriculture State Agricultural Response Team2.

Climate Variability and Forecasting in the Southeast U.S. David F. Zierden Center for Ocean-Atmospheric Prediction Studies The Florida State University.

What is El Nino and will it end our drought?. What has caused the drought? We have been experiencing drought conditions since September, We've also.

Welcome to the Southeast. Characteristics of the Southeast History: Williamsburg, Virginia is a town that is “frozen in time.” If you go there today.

December 2002 Section 2 Past Changes in Climate. Global surface temperatures are rising Relative to average temperature.

Drought in the West: Short-Range Forecasts to Assist with Local and Regional Planning Douglas Le Comte NOAA/CPC Association of Bay Area Governments: Water/Land.

OCEAN INTERACTIONS WITH THE ATMOSPHERE Niki Henzel & Ron Gabbay.

What Are the El Nino and La Nina?. Review of last lecture Tropical cyclone genesis: Western Pacific has the highest averaged number per year. 6 necessary.

The La Niña Influence on Central Alabama Rainfall Patterns.

A Primer on Drought History in Georgia David Emory Stooksbury, Ph.D. State Climatologist – Associate Professor Engineering and Atmospheric Sciences The.

Climate of the Southeast: From El Niño to Climate Change Water Summit XIV Albany, GA June17, 2008 David F. Zierden Florida State Climatologist Center for.

Water Year Outlook. Long Range Weather Forecast Use a combination of long term predictors –Phase of Pacific Decadal Oscillation (PDO) –Phase of Atlantic.

OBJECTIVE: TO KNOW SEVERAL FACTORS DRIVE CHANGES IN WEATHER. Weather Patterns 11-2.

Joe Ramey Winter Outlook for the Mountain Valleys of Colorado Uh Oh… No Niño Again! National Weather Service Grand Junction not quite El Niño.

July 25, 2001 presents “Past, Present, and Future” Ed Kieser.

El Nino and La Nina opposite phases of the El Niño-Southern Oscillation (ENSO) cycle. The ENSO cycle describes the changes in temperature between the ocean.

Abnormal Weather October 22, Teleconnections Teleconnections: relationship between weather or climate patterns at two widely separated locations.

National Integrated Drought Information System Drought Early Warning for the Apalachicola- Chattahoochee-Flint River Basin 14 October 2014.

Seasonal Outlook Long Range Forecast

Exploring management options for more resilient and efficient systems Southern Region Extension Climate Academy (SRECA) September 3-5, 2014 Athens, GA.

La Niña and The U. S. Winter Outlook Mike Halpert, Deputy Director Climate Prediction Center / NCEP December, 2011.

Southern Oscillation- Atmospheric component of ocean's El Niño. Oscillation in the distribution of high and low pressure systems across the equatorial.

Weather Outlook El Nino effects: Jet Stream shifts southward and across southern California Alex Tardy – NWS San Diego – November 16, 2015.

National Integrated Drought Information System Drought Early Warning for the Apalachicola- Chattahoochee-Flint River Basin 14 April 2015.

Drought Monitoring, Prediction and Response - A View From Georgia - David Emory Stooksbury, Ph.D. State Climatologist and Associate Professor Engineering.

NATIONALLY AND ACROSS OHIO GETTY IMAGES. DROUGHTOF 2012 DROUGHT OF 2012 PRE EXISTING CONDITIONS PRE EXISTING CONDITIONS COMPARISONS TO THE LAST DROUGHT.

National Integrated Drought Information System Drought Early Warning for the Apalachicola- Chattahoochee-Flint River Basin 13 January 2015.

 Abnormally high surface ocean temperatures off the coast of South America  Causes unusual weather patterns across the globe El Nino.

Much of the work that follows is straight from (or slightly modified) notes kindly made available by Jenny Pollock NCG and or spk (?)…. Nice to have a.

Climate Variability in the Southeast NIDIS Southeast Pilot, Apalachicola Workshop Apalachicola, FL April 27, 2010 David F. Zierden Florida State Climatologist.

Lecture 9: Air-Sea Interactions EarthsClimate_Web_Chapter.pdfEarthsClimate_Web_Chapter.pdf, p ; Ch. 16, p ; Ch. 17, p

Anomalous Behavior Unit 3 Climate of Change InTeGrate Module Cynthia M. Fadem Earlham College Russian River Valley, CA, USA.

Chapter: Climate Section 3: Climatic Changes.

Winter Outlook for the Pacific Northwest: Winter 06/07 14 November 2006 Kirby Cook. NOAA/National Weather Service Acknowledgement: Climate Prediction Center.

 On a climograph, what data are represented with bars? ◦ What data are represented with a line graph?  How can you determine the climate classification.

The ENSO Cycle Naturally occurring phenomenon – El Nino / Southern Oscillation (ENSO) Cycle Equatorial Pacific fluctuates between warmer-than-average.

ENSO El Niño—Southern Oscillation  El Niño (Spanish for “the Child” in reference to baby Jesus) = warm surface current in equatorial eastern Pacific.

Climate Indices – Cliff Dahm El Niño Southern Oscillation (ENSO) Pacific Decadal Oscillation (PDO) North Pacific Gyre Oscillation (NPGO) ( The atmosphere.

El Niño–Southern Oscillation (ENSO): What is it?

El Niño and La Niña.

Climate The average weather conditions for an area over a long period of time.

2018 Agricultural Climate Outlook

Climate- Abiotic factor

El Nino and La Nina.

Chapter 14: Section ). You will be able to define what an el niño and la niña Event is. 2). You should be able to explain what causes el niño.

Temperature Average temp 65 degrees

Yavapai County Climate

Ocean Currents El Niño and La Niña.

Climate Changes due to Natural Processes

Summary Global Circulation

Global Weather Patterns

NATS Lecture 15 Atmo-Ocean Interactions El Niño-Southern Oscillation

Winter/Spring Outlook:

Presentation transcript:

A Drought History of Alabama, Georgia and the Panhandle of Florida David Emory Stooksbury, Ph.D. State Climatologist – Associate Professor Engineering and Atmospheric Sciences The University of Georgia

Drought in the Southeast

Is a normal component of the climate system Is a normal component of the climate system

Drought in the Southeast Is a normal component of the climate system Is a normal component of the climate system Has occurred in the past and will in the future Has occurred in the past and will in the future

Drought in the Southeast Is a normal component of the climate system Is a normal component of the climate system Has occurred in the past and will in the future Has occurred in the past and will in the future No evidence of change in drought frequency or intensity No evidence of change in drought frequency or intensity

Drought in the Southeast Is a normal component of the climate system Is a normal component of the climate system Has occurred in the past and will in the future Has occurred in the past and will in the future No evidence of change in drought frequency or intensity No evidence of change in drought frequency or intensity At least from a climatic view At least from a climatic view

Drought in the Southeast Is a normal component of the climate system Is a normal component of the climate system Has occurred in the past and will in the future Has occurred in the past and will in the future No evidence of change in drought frequency or intensity No evidence of change in drought frequency or intensity Societal Changes change our vulnerability to drought – both increasing and decreasing our vulnerability Societal Changes change our vulnerability to drought – both increasing and decreasing our vulnerability

Societal Changes in the Southeast

Rapid population growth starting after World War II Rapid population growth starting after World War II

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Accelerated growth since 1980 Accelerated growth since 1980

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Accelerated growth since 1980 Accelerated growth since – Metro Atlanta about 1,000, – Metro Atlanta about 1,000,000

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Accelerated growth since 1980 Accelerated growth since – Metro Atlanta about 1 million 1960 – Metro Atlanta about 1 million 1960 – State of Georgia about 4.5 million 1960 – State of Georgia about 4.5 million

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Accelerated growth since 1980 Accelerated growth since – Metro Atlanta about 1 million 1960 – Metro Atlanta about 1 million 1960 – State of Georgia about 4.5 million 1960 – State of Georgia about 4.5 million 2008 – Metro Atlanta over 4.5 million 2008 – Metro Atlanta over 4.5 million

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Accelerated growth since 1980 Accelerated growth since – Metro Atlanta about 1 million 1960 – Metro Atlanta about 1 million 1960 – State of Georgia about 4.5 million 1960 – State of Georgia about 4.5 million 2009 – Metro Atlanta over 4.5 million 2009 – Metro Atlanta over 4.5 million 2009 – State of Georgia over 9 million 2009 – State of Georgia over 9 million

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Accelerated growth since 1980 Accelerated growth since 1980 Growth has be unevenly distributed Growth has be unevenly distributed

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Accelerated growth since 1980 Accelerated growth since 1980 Growth has be unevenly distributed Growth has be unevenly distributed Along the coast Along the coast Northern Piedmont – top of the water shed Northern Piedmont – top of the water shed

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Landscape changes Landscape changes

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Landscape changes Landscape changes Urban sprawl – changes in the watershed flow patterns Urban sprawl – changes in the watershed flow patterns

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Landscape changes Landscape changes Urban sprawl – changes in the watershed flow patterns Urban sprawl – changes in the watershed flow patterns Conversion of row crop fields to forest (started in 1920s) Conversion of row crop fields to forest (started in 1920s)

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Landscape changes Landscape changes Agricultural Changes Agricultural Changes

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Landscape changes Landscape changes Agricultural Changes Agricultural Changes Shift in amount in land in row crops and trees Shift in amount in land in row crops and trees

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Landscape changes Landscape changes Agricultural Changes Agricultural Changes Shift in amount in land in row crops and trees Shift in amount in land in row crops and trees Increase in irrigation Increase in irrigation

Societal Changes in the Southeast Rapid population growth starting after World War II Rapid population growth starting after World War II Landscape changes Landscape changes Agricultural Changes Agricultural Changes Shift in amount in land in row crops and trees Shift in amount in land in row crops and trees Increase in irrigation Increase in irrigation Increase in urban agriculture – the “green” industry Increase in urban agriculture – the “green” industry

Climate Trends Across the Southeast

Since 1900 – No trend in yearly precipitation Since 1900 – No trend in yearly precipitation Since 1900 – No trend to slight cooling in yearly average temperatures Since 1900 – No trend to slight cooling in yearly average temperatures

The Drivers Location, Location, Location El Nio and La Nia El Ni ñ o and La Ni ñ a

Coupled Air-Sea Interactions The El Nino/La Nina cycle is the predominant mode of year to year climate variability. “The CPC seasonal forecasts lack useful skill in the absence of a strong El Niño/La Niña event” - Bob Livezey

Tracking Tracking the El Niño /La Niña Cycle Sea surface temperature anomalies averaged over the Nino 3.4 portion of the equatorial Pacific Ocean Smoothed with a three-month running average to reduce noise

Winter Jet Stream Patterns During El Niño and La Niña El Niño La Niña

El Niño Effects on Precipitation

La Niña Effects on Precipitation

Alabama Droughts

Georgia Droughts

Annual North Central Georgia

Annual West Central Georgia

Annual Alabama Piedmont Plateau

Annual Southwest Georgia

Annual Coastal Plain Alabama

Annual Northwest Florida

The Seasonal Distribution is IMPORTANT

Typical Recharge in North Georgia - Courtesy SERFC

Response of Hydrologic Systems Response of Hydrologic Systems Apalachicola River at Chattahoochee, Florida

ENSO and Flow Rates ENSO and Flow Rates Apalachicola River at Chattahoochee, Florida

Rainfall By Seasons

Winter North Central Georgia

Spring North Central Georgia

Summer North Central Georgia

Fall North Central Georgia

Winter West Central Georgia

Spring West Central Georgia

Summer West Central Georgia

Fall West Central Georgia

Winter Piedmont Plateau Alabama

Spring Piedmont Plateau Alabama

Summer Piedmont Plateau Alabama

Fall Piedmont Plateau Alabama

Winter Southwest Georgia

Spring Southwest Georgia

Summer Southwest Georgia

Fall Southwest Georgia

Winter Coastal Plain Alabama

Spring Coastal Plain Alabama

Summer Coastal Plain Alabama

Fall Coastal Plain Alabama

Winter Northwest Florida

Spring Northwest Florida

Summer Northwest Florida

Fall Northwest Florida

Tree Ring Drought Information Long-term Droughts (3 or more years PDI < -0.99) Long-term Droughts (3 or more years PDI < -0.99)

Tree Ring Drought Information Long-term Droughts (3 or more years PDI < -0.99) Long-term Droughts (3 or more years PDI < -0.99) Long-term drought about once in 40 years Long-term drought about once in 40 years

Tree Ring Drought Information Long-term Droughts (2 or more years PDI < -0.99) Long-term Droughts (2 or more years PDI < -0.99) Adds the following years Adds the following years

Tree Ring Drought Information Long-term Droughts (2 or more years) Long-term Droughts (2 or more years) Adds the following years Adds the following years Return interval is now once in 25 years

Some Drought Monitoring Tools

US Drought Monitor

Lawn and Garden Index

Summer Drought and Moistness Index Alabama th Driest

Summary

Summary Droughts are a normal component of the climate system Droughts are a normal component of the climate system

Summary We will have droughts in the future We will have droughts in the future

Summary Droughts are a normal component of the climate system Droughts are a normal component of the climate system We will have droughts in the future We will have droughts in the future No trend in southeastern climate since 1900 No trend in southeastern climate since 1900

Summary Droughts are a normal component of the climate system Droughts are a normal component of the climate system We will have droughts in the future We will have droughts in the future No trend in southeastern climate since 1900 No trend in southeastern climate since 1900 More people but the same amount of water More people but the same amount of water