Overdraft Of the Central Valley Aquifer The valley is in a structural trough about 400 miles long and from 20 to 70 miles wide and extends over more than.

Slides:



Advertisements
Similar presentations
Groundwater What is it and why is it important?
Advertisements

Water Resources Water is essential to life on Earth. Humans can live for more than month without food, but we can live for only a few days without water.
Water Resources Section #1: Chapter 11.
Groundwater Ground water does not occur as an underground river UNLESS it is found in a cave.
Water Terms
Groundwater and Karst Topography
Active Reading Workbook pg Turn in. Then open book to page 290.
Warm Up Think about where water comes from. Is there more or less water on Earth than there was 1 billion years ago?
Section 1: Water Resources
1.3: Fresh Water Flows Underground Groundwater: Water held underground Permeable: A substance that liquids can flow through. Ex: coffee filter, soil,
Warm Up Think about where water comes from. Is there more or less water on Earth than there was 1 billion years ago?
Surface Water (Lakes, streams, ponds, wetlands, etc.)
Groundwater Resources: The Desert Southwest. What has happened to groundwater levels in the area investigated as time has progressed? What were the reasons.
Water is fundamental to life A human baby is 75% water Water is used in chemical reactions Water moves up 300’ tall plants Water regulates temperature.
APES Chapter 14 Water Resources. Water’s Unique Properties  Hydrogenbonding  Hydrogen bonding  Liquid over wide temperature range  Changes temperature.
The Water Cycle Also called the hydrologic cycle Describes the continuous movement of water on, above, and below the surface of the Earth The balance of.
- Water beneath the Earth’s surface in sediment and rock formations.
Water Resources All waterFresh water Readily accessible fresh water Oceans and saline lakes 97.4% Fresh water 2.6% Groundwater 0.592% Ice caps and glaciers.
Chapter 9 Water Resources. Usable Water is Rare  Agriculture- the largest use of water around the world. Agriculture, Industry and Household Needs.
Do Now: 30 Million people in 7 states depend on water from the Colorado River basin. We know that during drought years this severely affects the way of.
Overdraft of the HIGH PLAINS AQUIFER Eric Bueser March 3, 2010.
Chapter 14 Part 1. WATER’S IMPORTANCE, AVAILABILITY, AND RENEWAL Water keeps us alive, moderates climate, sculpts the land, removes and dilutes wastes.
WaterSection 1 Chapter 11 Water Section 1: Water Resources.
Water Resources Environmental Science Spring 2011.
Ogallala Formation (containing High Plains Aquifer): Deposited over 10 million years ago Coarse-grained sand, gravel, fine clay, silt, and sand 174,000.
Subterranean water that saturates the Earth’s crust just below the surface What is it?
Water Distribution. The Water Cycle Water is essential to life on Earth. Humans can live for more than month without food, but we can live for only a.
Water Cycle, Groundwater, Aquifers, Caves
WaterSection 1 Water Resources Water is essential to life on Earth. Humans can live for more than month without food, but we can live for only a few days.
Water: How it moves in the ground and on the surface.
Water Chapter 11. Water Resources Section 11.1 Water is essential to life on Earth. Humans can live for more than month without food, but we can live.
Chapter 11 section 1 Water. Water Resources Water is essential to life on Earth. Humans can live for more than month without food, but we can live for.
Hydrogeology Distribution of Earth’s Water Fresh Water Reservoirs Inputs and outputs for fresh water reservoirs Ogallala Aquifer Water quality and land.
Water Terms
WaterSection 1 Section 1: Water Resources Preview Classroom Catalyst Objectives Water Resources The Water Cycle Global Water Distribution Surface Water.
Freshwater Resources Chapter 7. Water: A Vital Resource Water is fundamental to life as we know it. Water is fundamental to life as we know it. A total.
Hydrosphere Notes Parts 6 - Groundwater. Where is most of Earth’s useable freshwater found? ~97% is Groundwater.
Introduction to Groundwater
Section 1: Water Resources
Section 1: Water Resources
Freshwater Resources Chapter 7.
Groundwater Basics.
Water Terms
Section 1: Water Resources
Aim: Water Resources Notepack 24.
Section 1: Water Resources
Water Chapter 11-1.
DO NOW Pick up notes and Review #27. Do you have any labs to turn in?
Objectives Describe the distribution of Earth’s water resources.
ENVIRONMENTAL SCIENCE
HYDROSPHERE Groundwater.
Section 1: Water Resources
Water Resources Water is essential to life on Earth. Humans can live for more than 1 month without food, but we can live for only a few days without water.
Water Terms
Section 1: Water Resources
Ground Water Ground Water lies beneath the ground surface, filling pores in sediments and sedimentary rocks and fractures in other rock types Represents.
Section 1: Water Resources
Section 1: Water Resources
Groundwater.
Section 1: Water Resources
Section 1: Water Resources
Section 1: Water Resources
Section 1: Water Resources
Section 1: Water Resources
Section 1: Water Resources
Section 1: Water Resources
Section 1: Water Resources
Section 1: Water Resources
Section 1: Water Resources
WARM UP: 10/13/14 As a stream curves, or ______________, the water moves faster on the outside of the curve.
Presentation transcript:

Overdraft Of the Central Valley Aquifer The valley is in a structural trough about 400 miles long and from 20 to 70 miles wide and extends over more than 20,000 square miles Nate Holdsworth

3 regions Redding, Central valley, Tulare separated by different ground water flow systems The most drastic decrease in water levels have taken place in the Tulare Basin and San Joaquin Valley. Sacramento Valley does not pump as much because they have more surface water. Tulare Basin is the deepest part of the aquifer (continental deposit) Also takes the longest to recharge.

Geologic Setting of the Aquifer THE CENTRAL VALLEY AQUIFER IS A BASIN FILL AQUIFER THE CENTRAL VALLEY ACTS AS A TROUGH. IT HAS ACCUMULATED CONTINENTAL DEBRIS AND MARINE SEDIMENT OVER MILLIONS OF YEARS AS MOUNTAINS ERODE AND THE VALLEY IS SUBMERGED BENEATH OCEAN WATERS. OCEAN SEDIMENT DEPOSITED DURING THE LAST INUNDATION OF THE CENTRAL VALLEY DURING THE PALEOCENE(65 MILLION-56.5 MILLION Y.A.) AND EOCENE ( MILLION Y.A.) IS RELATIVELY IMPERMEABLE. THE CONTINENTAL MATERIAL(ABOVE OCEAN SEDIMENT) CARRIED INTO THE VALLEY BY MOUNTAIN STREAMS, CONSISTS PRIMARILY OF SAND, GRAVEL, AND CLAY. THIS MATERIAL MAKES UP THE MAJORITY OF THE AQUIFER. THE AQUIFER VARIES IN DEPTH (CONTINENTAL MATERIAL) FROM 9,000 FT. AT THE DEEPEST. TOWARDS THE SOUTHERN END AND HAS AN AVERAGE THICKNESS OF 2,4OO FT.

Before humans came along and developed the area, the Central Valley Aquifer fully recharged the water table every year in the valley and percolated up into the Sacramento and San Joaquin River’s as well as other small streams and wetland areas that existed throughout the valley.

“The Central Valley is one of the most important agricultural areas in the world. No single region of comparable size in the United States produces more fruits, vegetables, and nuts. More than 7 million acres are currently (1995) under irrigation. During 1985, crop irrigation accounted for 96 percent of the surface water and 89 percent of the ground water withdrawn in the Central Valley. 8 percent of the U.S. food supply produced in the central valley.”(USGS) California’s Central Valley covers about 20,000 square miles, and is one of the most productive agricultural regions in the world. More than 250 different crops are grown in the Central Valley, with an estimated value of $17 billion per year. Approximately one-sixth of the Nation’s irrigated land is in the Central Valley. About one-fifth of the Nation’s groundwater pumpage is from the Central Valley aquifer system. AGRICULTURE IS A HUGE FACTOR IN AQUIFER DEPLETION

“During the period 1961 through 1977, the rate of ground-water withdrawals from the aquifer system was greater than the net recharge from all sources. Withdrawals in excess of recharge resulted in a loss of water from storage in the aquifer of 800,000 acre-feet per year. In the case of the Central Valley aquifer system, some of the loss from storage is permanent because some of the water was removed from beds of fine-grained materials, which, when drained, become compacted and cannot store water again. Compaction of fine-grained materials led to land subsidence in the Central Valley.”(USGS) Compaction and Land Subsidence as a result of aquifer overdraft Drought and decreased availability of surface water have led to increased pumping of the central valley aquifer. Climate change and increased population will likely cause current trends to continue or increase

“The Sacramento Valley is expected to have sufficient supplies to meet agricultural demand until at least However, without increased surface- water imports, the San Joaquin Valley (exclusive of the Tulare Basin) and the Tulare Basin might require withdrawals of 150,000 and 2,400,000 acre-feet per year, respectively, in excess of recharge. Those estimates probably underestimate additional increased demand that would result from sustained dry weather. Occasional large withdrawals from an aquifer are a viable solution to the problem of reduced surface-water supplies in dry periods, provided the aquifer is replenished during wet years. However, continual withdrawal of ground water in excess of recharge can increase the cost of pumping, reduce water availability, and, in certain hydrogeologic settings, can cause land subsidence.”(USGS) Reverse of groundwater flow because of aquifer overdraft causes rivers and lakes to sink into unconfined aquifers in areas where the water table has been lowered by pumping. Another consequence of aquifer overdraft

CALIFORNIA IS FACING IT’S FOURTH YEAR OF DROUGHT CONDITIONS!!!

Subsidence can cause surface structure damage Over time, but more importantly compaction Decreases the amount of water the aquifer Can hold meaning less water availability In the future, even if the aquifer was fully recharged. When fine-grain groundwater layers of permeable clay, silt, and sand lose water from their pore space they are compacted by the force of the land above and become impermeable. Coarser grain compact as well but can recover, fine grain compaction is usually permanent. The land surface declined nearly 30 feet from the 1920's to the late 1970's in an area southwest of Mendota

SOLUTIONS? More efficient irrigation techniques Artificial recharge of aquifer Education and conservation

sources m_the_future:_california%27s_massive_groundwater_over draft_newly_revealed m_the_future:_california%27s_massive_groundwater_over draft_newly_revealed 15/news/ _1_central-valley-water-supply- groundwater 15/news/ _1_central-valley-water-supply- groundwater k/hydrosphere/subsurface_water_groundwater.html k/hydrosphere/subsurface_water_groundwater.html 2df7bc dbf75fb74c25d6b09eb.html