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US Climate Resilience Toolkit: Freshwater and Drought

October 20, 2017

October: (LK Comment: Found this excellent USG website recently which provides links to details about the effects of climate change in the Pacific and elsewhere.  This portion focuses on freshwater issues)

The ability of people, plants, and wildlife to thrive on Pacific islands is tied to the amount of precipitation each island receives. On time scales from months to decades, climate variability and change affect precipitation patterns across the region.  On even the smallest islands, freshwater is necessary to support plants, animals, and any human inhabitants. On developed islands, natural sources of water must also support agriculture, industry, and tourism. Relatively high demand for these uses means that water supply is constrained and may become more limited as climate changes.

Here is the link

Filed Under: Climate Change, Rainfall, Water Conservation, Water Economics

Warming may lead to freshwater stress on many islands around the world

July 16, 2017

(Kobayashi comment:  This article in Nature is about a year old, but is especially key for freshwater planning for islands in the South Pacific and elsewhere.)

Scott and Lindsey:  May 2016

The millions of people—not to mention other animals and plants—living on islands already face unique challenges due to global warming. As seas rise and temperatures climb, islanders may have fewer choices for relocating people, infrastructure, or agriculture than larger countries do. Among the most serious public health and ecological threats facing islands may be freshwater stress. Nearly three-quarters of the islands examined in a recent study were projected to experience much drier conditions by 2050, with the situation worsening by 2090.

The bubble map at top right shows projected changes in freshwater stress by 2090 for 80 island groups around the world. Brown indicates increased freshwater stress, and green indicates decreased stress. The larger the dot, the larger the current population.

The bottom map shows small island groups that may be especially vulnerable by the end of the century due to a combination of drying and expected population growth. (Only the 22 island groups that had their own entry in the World Bank’s nation-specific population database were included in the second analysis.) The size of the dots on this map was determined by multiplying the projected change in freshwater stress in 2090 by the estimated population growth by 2050 (the farthest time horizon available for these islands).

Kris Karnauskas, the lead scientist on the research, explains that when he and his colleagues considered future rainfall changes alone, the models predicted that roughly 50% of small islands would get drier in a warming climate. But when it comes to freshwater stress, rainfall is only half the story. The other half is evaporation, and estimating evaporation from the land surfaces of small islands is something most global climate models—called GCMs, for short—don’t do.

The rest of the article may be purchased from Nature Magazine.

Filed Under: Climate Change, Rainfall, Streams and Rivers, Water Conservation

UH researchers link quality of coastal groundwater with reef

December 17, 2016

December;

(Honolulu, HI) Land-use practices on tropical oceanic islands can have large impacts on reef ecosystems, even in the absence of rivers and streams. Land-based pollutants, such as fertilizers and chemicals in wastewater, infiltrate into the groundwaters beneath land and eventually exit into nearshore ecosystems as submarine groundwater discharge (SGD)—seeping into the coastal zone beneath the ocean’s surface. In a study published recently in PLOS ONE, University of Hawai‘i at Mānoa (UHM) scientists used a combination of field experiments and chemical analysis of water and algae to show that the quality of coastal groundwater plays a major role in determining the health of nearshore ecosystems in Hawai‘i.

Various sources of pollution, such as agriculture or sewage treatment facilities, have identifiable chemical signatures, particularly the isotopes of nitrogen in the nutrients they contain. This study assessed groundwater quality, coastal water quality, and reef health across six different bays on Maui with various potential sources of pollution. By comparing the nitrogen isotope signature of algae tissues and potential pollution, the research group traced nutrients in the algae back to their land-based sources.

This study is the first to show the extent of the impact of wastewater injection wells at Kahului Wastewater Reclamation Facility, Maui’s highest-volume sewage treatment plant, on Kahului Bay. In addition to relatively high nutrient levels in marine surface waters in Kahului Bay, shallow areas were almost entirely dominated by a thick fleshy mat of colonial zoanthids, a phenomenon not reported anywhere else in the state. A concurrent companion study to this work, led by James Bishop at the UHM Department of Geology and Geophysics, found that water collected from beach sands, which represents coastal groundwater, next to the Kahului Wastewater Reclamation Facility contained up to 75 percent treated wastewater—highlighting the impact of wastewater in this area.

For the rest of this article including citations see

 

Filed Under: Groundwater, Rainfall, Stormwater, Water Contamination

Researchers reveal cost-effective path to drought resiliency

July 26, 2016

July 2016

(Kobayashi Comment:  This intriguing Stanford study may offer an answer to Hawaii’s future freshwater shortages…  Imagine routing Hawaii’s torrents of stormwater into the ground aquifers instead of washing brown water pollution onto our beaches and recreation areas…)

Strained by drought in recent years, California desperately needs more resilient water supplies. An affordable solution that provides a wide range of benefits is within reach, according to a new Stanford study.

 Published in San Francisco Estuary & Watershed, the study reveals the costs and benefits of using groundwater recharge and storage across the state. This process, known as “managed aquifer recharge,” or MAR, can incorporate co-benefits such as flood control, improved water quality and wetland habitat protection. The study found the median cost of MAR projects is $410 per acre-foot (the amount of water required to cover an acre of level land at a depth of 1 foot) per year. By comparison, the median cost of surface water projects is five times more expensive — $2,100 per acre-foot.

“We find that MAR is an effective and affordable way to balance local groundwater decisions with regional and statewide management,” said study co-author Debra Perrone, a postdoctoral scholar with Stanford’s Water in the West program.

Many local communities rely on statewide infrastructure to supplement their water supply. This water is costly and limited in supply, raising a need for cost-effective local storage options.

Managed aquifer recharge allows for local water storage, access and management to a much greater extent than large surface water reservoirs, which are often managed by state and federal entities. Although excess surface water can be limited in some regions of California, treated wastewater and urban stormwater offer sources for MAR that aren’t fully utilized by centralized surface water storage infrastructure.

MAR is particularly well suited to more populous and developed areas that can take advantage of large quantities of treated wastewater and stormwater runoff collected by extensive infrastructure for use in recharge. In more rural areas, MAR using excess surface water can still play an important role in replenishing groundwater basins and guarding against dry times.

“Every year, California lets 1 million acre-feet of treated wastewater flow to the ocean,” said co-author Melissa Rohde, previously a researcher with Water in the West. “Our research shows it would cost the state about $870 million to build the necessary MAR facilities to recover and store this water. That’s not a lot of money compared to the cost and energy required to transport water from large surface water projects or to desalinate ocean water.”

A water enigma

Groundwater supplies up to 60 percent of California’s water supply during dry years. Despite its crucial role in slaking the Golden State’s thirst, groundwater went largely unregulated until the 2014 passage of the Sustainable Groundwater Management Act. Therefore, statewide data on groundwater management generally and managed aquifer recharge projects specifically has been sparse or proprietary, generally not shared publicly.

This lack of information was highlighted with the 2015 passage of California’s largest-ever water-related proposition — the $7.5 billion Proposition 1. The bond promises almost $3 billion for water storage projects. Without data on relative costs and benefits, state and local water managers are hard pressed to make informed decisions on MAR projects.

In addition to new funding opportunities, the 2014 law puts the burden on local agencies for sustainably managing groundwater. So, local communities have more reason than ever to bank water sustainably. Managed aquifer recharge allows agencies to do that in ways tailored to a community’s resources.

Perrone and Rohde set out to identify costs and benefits of MAR projects around the state by mining applications for general obligation bonds from ballot propositions. In these publicly available forms, the researchers identified proposed economic costs and anticipated MAR project benefits. Then, they surveyed the projects’ managers to compare initial estimates with actual costs, and to identify advantages and limitations.

Looking to the future

As a changing climate, growing population and other factors put increasing pressures on water supplies, California’s need for long-term resilience will only intensify, the study noted. Conservation will only go so far. Flexible water storage options that can address changing conditions are essential. Therefore, it is likely that more water agencies will adopt MAR as a local management tool.


Story Source:

The above post is reprinted from materials provided by Stanford University. The original item was written by Rob Jordan. Note: Materials may be edited for content and length.


Journal Reference:

  1. Perrone, Debra; & Merri Rohde, Melissa. Benefits and Economic Costs of Managed Aquifer Recharge in California. San Francisco Estuary and Watershed Science, July 2016

Filed Under: Groundwater, Rainfall, Stormwater, Water Conservation, Water Contamination

UH Gets $20 Million to Study Fresh Water Aquifers

May 13, 2016

13 May 2016, By Burt Lum, Civil Beat

You won’t find any argument among scientists, policy makers and the general public that fresh water is an extremely important natural resource.

I would argue that clean water is more important than oil, right up there next to clean air. And in Hawaii, we are especially blessed with some of the best water in the world.

Barry Usagawa, the administrator of the Honolulu Board of Water Supply’s Water Resource Program, told me, “Oahu’s drinking water quality is one of the best in the nation. Our fresh water comes from basal groundwater that is naturally purified, has high clarity and low mineral content, (is) very stable and needs very little treatment.  Oahu’s drinking water is as nature provides it to us.”

Our mauka forests and volcanic soil are well suited as a filtration system for rainwater, as it seeps through to underground freshwater aquifers. This process is slow, taking about 25 years for the rain water to journey through the mountain to form pools, or lenses, on top of salt water pools.

The added salts and minerals in ocean water makes it denser than fresh water, enabling fresh water to float on top of the salt water. That is why it is much easier to swim, float and tread water in the ocean than in a pool. The Honolulu Board of Water Supply pumps the water from these aquifers and distributes it to communities on Oahu.

I, for one, take a lot of this for granted. Turn on the faucet and out comes fresh, clean, spring-like water. The water from my home’s tap tastes like bottled water, so I rarely buy it unless I am prepping for hurricane season. I hardly give our fresh water a second thought and always expect it to be there. But water is a very precious natural commodity.

The National Science Foundation recognized this and awarded the University of Hawaii a five-year, $20 million grant to study the freshwater aquifers. This grant is part of the foundation’s Experimental Program to Stimulate Competitive Research.

See the rest of the column here

 

Filed Under: Groundwater, Rainfall

Warming up: As droughts continue, Hawaii must protect its freshwater

April 1, 2016

(April 2016, Editor Comment:  This is a timely and well presented editorial by Senator Gabbard and Rep. Yamane of the problems facing the island’s fresh water future.   We applaud the legislature’s 2015 water bills and look forward to the new session’s legislation.  The new bills must begin to address both conservation and reuse on the islands to get ahead of future scarcities.)
Honolulu Star Advertiser – March 27, 2016
By: Sen. Mike Gabbard and Rep. Ryan Yamane

Last October, after an unseasonable and unprecedented rainy summer, the U.S. Drought Monitor declared that for the first time since April 15, 2008 no part of our island chain was suffering from drought.

For seven long years, our farmers, ranchers and citizens had endured a prolonged dry period throughout Hawaii that caused cattle herds to be thinned, crops to suffer and spiked our rate of forest fires. Unfortunately, our relief was short-lived.

Today, just five months later, 54 percent of our island area is again locked in “moderate drought” and 100 percent of our islands are “abnormally dry.” As we live through one of the largest El Niño events on record, our islands may get even drier through 2016.

Why is this happening now? Long-term climate change trends seem to be bringing drought to Hawaii more frequently. Over the past 30 years as temperatures have risen, our average annual rainfall amount has fallen by a staggering 22 percent. Our beloved tradewind days have declined by 28 percent — from an average of 291 trade wind days in 1973 to only 210 in 2009. And when we do get rain, increasingly it tends to come in large — even epic — events where several inches may fall in just a few hours, causing stormwater runoff instead of the soft, gentle rains that slowly seep into the soil and our precious island aquifers for later use.

The Legislature understands that water is the lifeblood of our society, and long-term fresh water security is a key element to our economic health and our unique quality of life. Even as we address critical issues such as homelessness and health care this session, we acknowledge the need to work proactively to protect our fresh water supply.

We have watched the sobering experience of California as it suffered through $2.74 billion in damage to its economy in 2015 alone as a result of the ongoing drought and water supply problems — and the clear lesson is that a few ounces of prevention are far better than many tons of cure. We are moving to preserve our supply of the best drinking water in the world with innovative new solutions and policies.
Last year in 2015, the Legislature passed several key bills signed by Gov. David Ige that will help enable water infrastructure upgrades, encourage water recycling at state facilities, and capture stormwater runoff before it enters our oceans.

This legislative session we are building on this foundation with another comprehensive package of fresh water bills that will decrease water system leaks (House Bill 2041); foster public-private partnerships to reuse, conserve and recharge our water (House Bills 2029 and 2040); commit to statewide water reuse and recycling (House Bill 1749); improve storm water retention and capture (House Bill 1750); and provide incentives to residents who adopt water-saving devices in their homes (House Bill 2042).

In concert with these policy changes, the independent, nonprofit Hawai‘i Community Foundation recently released a report from a blue-ribbon commission that said to ensure water security, Hawaii must secure 100 million gallons a day in additional, reliable fresh water supply by 2030 even as less rain falls on our Islands.

We have embraced this challenge and will continue to improve our water policies in ways that move us toward this shared statewide goal.

While these policy changes are an important start, all of us need to work together planting trees, turning off the tap, and — most importantly — teaching our keiki the value of wai in order to truly protect our shared water future.

Filed Under: Climate Change, Groundwater, Rainfall, Water Conservation

Perishing of Thirst in a Pacific Paradise: Long before the Marshall Islands disappear under rising seas, finding freshwater will become the most urgent consequence of climate change.

January 19, 2016

Jan 2016. By Peter Mellgard, The World Post.  Huffpost.

 

MAJURO, Marshall Islands — A few yards from the crashing waves of the Pacific, on a precariously narrow strip of land, precious rainwater pools on the runway of the Marshall Islands’ main airport. This is how the government hydrates tens of thousands of its citizens: the rainwater runoff from the airstrip. The water — complete with bird droppings and whatever else has landed on the tarmac — is funneled via pipes to earthen storage reservoirs. From there, it gets filtered and treated and pumped to people down the atoll.

During a normal week the water only flows for 12 hours. In prolonged droughts, which are almost certain to happen in 2016, the reservoirs can get depleted to the last drop. The country can hold on for only a few months without rain. Thirsty Marshallese, many of whom rely on their own much smaller rainwater catchment containers, won’t have anything to drink or wash with. Dehydration, starvation, malnutrition and disease have been known to follow. Crops fail. Sensitive groundwater reservoirs become contaminated.

This is a bleak outlook for a vulnerable country in the remote Pacific, halfway between Hawaii and Australia. The Marshall Islands are a heavenly chain of white sandy beaches and coral reefs, but they are paradoxically one of the most inhospitable and challenging places to build a nation. Climate change will have numerous, complicated effects here. Access to freshwater, already in limited supply on the archipelago, is likely to become the most serious issue.

The rest of the article is here…

 

Filed Under: Climate Change, Groundwater, Rainfall, Water Conservation

Briefings from the Second Conference on Water Resource Sustainability Issues, Dec 2015.

January 4, 2016

Folks,

Here are some of the slides from presentations at the Second Conference on Water Resource Sustainability Issues on Tropical Islands.

Here is the link

Best,

Larry Kobayashi

Editor

Filed Under: Groundwater, Rainfall, Streams and Rivers, Water Conservation

Someone Is Going To Get Seriously Hurt’: Flooding leaves neighbors grappling with questions of responsibility

September 30, 2015

30 Sept 2015;
By Bret Yager West Hawaii Today byager@westhawaiitoday.com

Flooding that turned coffee fields into wastelands of rock this week has Kainaliu coffee farmers asking how the water can be managed in a way that doesn’t pit neighbor against neighbor.

When rain clouds parked over the Kona coffee belt and dumped up to three inches an hour on Thursday, Nasi Fernandez’s coffee orchard became a deep-cut gorge of mud and bare rock, coffee trees uprooted and buried, an acre and half of land stripped and rendered unusable. When the channel exited his property, it charged through Shawna Gunnarson’s farm, leaving trenches and boulder fields through her coffee trees. It filled her pastures with mud, flooded greenhouses and outbuildings, and ripped out fencing and irrigation.

“It was like a freight train,” she said. “Terrifying.”

Saturday, Gunnarson estimated the flood has cost her at least $20,000, not counting an acre of lost orchard and the labor it will take to dig out buried coffee trees so their roots don’t smother under the new layer of soil.

Gunnarson doesn’t blame the Fernandezs for the landslide of rock and flood debris any more than that family is able to pinpoint the source mauka of their own farm. But it begs the question a lot of folks along the road have been asking themselves over the past couple of days.

“How will development up mauka be managed in such a way that that it doesn’t affect the people down below?” asked Ruth Fernandez, standing at the edge of a muddy road with other farmers and neighbors Saturday.

For the rest of the story see…

Filed Under: Rainfall, Streams and Rivers, Water Contamination

Hawaii’s resorts say visitors take Waikiki beach closures in stride

August 27, 2015

(Editor Note:  Much of Waikiki Beach reopened for business on 26 August after water quality tests proved negative.  A few areas off the beaches remain closed on southern Oahu)

By Darin Moriki, Pacific Business News, 26 August 2015

Hawaii may be best known for its balmy weather, warm Pacific Ocean waters and relatively clean beaches, but the stormy weather this week, a sewage spill near Ala Moana Center that closed Waikiki Beach showed visitors a different side of the Aloha State.

“We got a call the minute it happened down by the (Hawaii) Convention Center, so we were very fortunate to have that kind of communication,” Hawaii Tourism Authority President and CEO George Szigeti told reporters during a news conference on Wednesday in the city’s Department of Emergency Management. “The health, safety and welfare of our visitors and locals alike is No. 1, so we immediately informed all of our hotels and they took appropriate safety mechanisms in place to ensure that all visitors were adhering to the (warning) signs.”

See the rest of the article here

Filed Under: Climate Change, Rainfall, Water Contamination, Water Economics

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