Hmm. Since all weather and hence climate on a longer scale is essentially chaotic, isn’t rainfall generally erratic as a consequence of that chaos?. Isn’t that why we have some areas that get droughts in one season and floods the next? Of course there are overriding patterns like El Niño, but it seems to me that this story is simply hyping the obvious known for years: better water storage helps in dry years.
Image above from NASA Earth Observeratory: Global Rainfall Patterns
From a press release, one more thing to worry about. The “big dam dilemma” is actually in the press release, I kid you not, see it unedited below. – Anthony
In a changing climate, erratic rainfall poses growing threat to rural poor, new report says.
Addressing big dam dilemma, experts call for diverse water storage options to reduce uncertainty and improve production of rainfed farming
STOCKHOLM (6 September 2010)—Against a backdrop of extreme weather wreaking havoc around the world, a new report warns that increasingly erratic rainfall related to climate change will pose a major threat to food security and economic growth, especially in Africa and Asia, requiring increased investment in diverse forms of water storage as an effective remedy.
“Millions of farmers in communities dependent on rainfed agriculture are at risk from decreasing and erratic availability of water,” said Colin Chartres, director general of the Sri Lanka-based International Water Management Institute (IWMI), which released the report to coincide with World Water Week in Stockholm. “Climate change will hit these people hard, so we have to invest heavily and quickly in adaptation.”
The report argues against over-reliance on single solutions like big dams, proposing instead an integrated approach that combines large- and small-scale storage options, including the use of water from natural wetlands, water stored in the soil, groundwater beneath the earth’s surface, and water collected in ponds, tanks and reservoirs.
“Just as modern consumers diversify their financial holdings to reduce risk, smallholder farmers need a wide array of ‘water accounts’ to provide a buffer against climate change impacts,” said Matthew McCartney, the report’s lead author and a hydrologist at IWMI, which is supported by the Consultative Group on International Agricultural Research (CGIAR). “That way, if one water source goes dry, they’ll have others to fall back on.”
“For millions of people dependent on rainfed agriculture, reliable access to water can make all the difference between chronic hunger and steady progress toward food security,” McCartney added. “Even small amounts of stored water, by enabling crops and livestock to survive dry periods, can produce large gains in agricultural productivity and in the well-being of rural people.”
IWMI and its research partners estimate that up to 499 million people in Africa and India can benefit from improved agricultural water management.
In Asia, where irrigation was greatly expanded in recent decades, rainfed agriculture is still extensive, accounting for 66 percent of the total cropped area, the IWMI study notes. In sub-Saharan Africa, the proportion is far greater at 94 percent. Yet, these are precisely the regions where water storage infrastructure is least developed.
“Unless we can reduce crippling uncertainty in rainfed agriculture through better water storage, many farmers in developing countries will face a losing battle with a more hostile and unpredictable climate.”
In response to increased demand for food and power supplies, the governments of developing countries with fast-growing economies have invested heavily in large dams during the current decade, ending a 10-year lull in their construction. Many of the 50,000 large dams built worldwide since the 1950s are intended to store water for irrigation.
The positive effects of such infrastructure development, in terms of flood control and improved agricultural productivity are well documented, the IWMI report explains. But so are the adverse social and environmental impacts, including displacement of up to 80 million people from their homes and disruption of the livelihoods of some 470 million people living downstream from dams as a result of altered river flows. As acrimonious debate about large dams continues, IWMI’s advice for governments is to do a better job of analyzing the potential benefits for economic development and poverty reduction and to pay more serious attention to the social and environmental consequences.
But the IWMI study also advocates giving more weight to a continuum of small-scale storage options, citing strong evidence that when such measures are well planned, they can contribute importantly to local food security and economic growth.
Field studies in various semi-arid environments, for example, have proven the effectiveness of using small planting basins to “harvest” water, together with targeted application of organic or inorganic fertilizer. In Zimbabwe, such basins have been shown to boost maize yields, whether rainfall is abundant or scarce, while in Niger, they have permitted three- or four-fold increases in millet yields.
In the northeast of India’s Rajasthan State, the construction of about 10,000 water harvesting structures—intended mainly to recharge groundwater—has made it possible to irrigate about 14,000 hectares, benefiting some 70,000 people. Whereas previously, farmers barely had enough water to produce grains, now they can also grow vegetables and other cash crops. Similarly, the construction of more than 90,000 underground water storage tanks in China is benefiting a million farmers.
Case studies suggest that combinations of different storage options can be particularly effective. In southern Sri Lanka, for example, the construction of a large water storage reservoir, which was then linked to five previously created small reservoirs brought about a 400 percent increase in crop production.
But in some places, the results of major water storage initiatives have been uneven. In Ethiopia, for example, one study showed that groundwater wells and small dams reduced poverty by 25 to 50 percent. But another analysis in the country’s Amhara region found that most of the approximately 4,000 water harvesting ponds constructed from 2003 to 2008 were no longer functioning, mainly because of poor site selection, technical failures and weak community involvement in maintenance.
“None of these options is a panacea,” said McCartney. “They all have pros and cons, which depend on their inherent characteristics, on the way they are planned and managed, and on the conditions at specific sites.”
A further hazard with any water storage option, the IWMI report notes, is that the practice itself will be subject to climate change impacts. In arid regions, for example, soil moisture may decline so rapidly as to reduce the effectiveness of practices like planting basins. Likewise, decreased rainfall could limit groundwater recharge, while rising sea levels will increase the risk of salt water intruding on coastal aquifers.
Another danger is that badly planned storage will not only waste money but actually worsen the negative affects of climate change, for example, by providing extra breeding habitats for malaria-infected mosquitoes.
To guard against such hazards, the report argues, governments need to assume greater responsibility for more integrated planning of water storage systems. In the past, storage schemes were often conceived in a piecemeal fashion at the local level, based more on political expediency than on evidence. An integrated approach would take into account the wide range of hydrological, economic, social and environmental factors that determine costs and benefits and would consider various storage options in combination. Well-planned water storage can help lift people out of poverty and provide them with an effective way to cope with climate change.
“The more we study climate change, the more we realize that water is the principal medium by which its impacts will be manifested in agriculture,” said Chartres. “We may not know exactly what those impacts will be, but we can be sure they will include greater rainfall variability. Water storage in all its forms offers a better way to manage risks during these times of increasingly uncertain weather.
The International Water Management Institute (IWMI) is a nonprofit, scientific research organization focusing on the sustainable use of water and land resources in agriculture, to benefit poor people in developing countries. IWMI’s mission is “Improving the management of water and land resources for food, livelihoods and the environment.” IWMI has its headquarters in Sri Lanka and regional offices in Africa and Asia. The Institute works in partnership with developing countries, international and national research institutes, universities and other organizations to develop tools and technologies that contribute to poverty reduction as well as food and livelihood security. www.iwmi.org
The Consultative Group on International Agricultural Research (CGIAR), established in 1971, is a strategic partnership of countries, international and regional organizations and private foundations supporting the work of a consortium of 15 international Centers. In collaboration with national agricultural research systems, civil society and the private sector, the CGIAR fosters sustainable agricultural growth through high-quality science aimed at benefiting the poor through stronger food security, better human nutrition and health, higher incomes and improved management of natural resources. www.cgiar.org
Open any World History textbook, chances are you’ll find a picture of an aquaduct. Inconvenient distribution of water is nothing new, nor is human ability to deal with it…
Best,
Frank
Latimer Alder says:
September 7, 2010 at 12:22 am
Slurp of coffee……………………….
You should have said “statin the bleedin obvious” a’la Monty Python!:-))
Another slurp of coffee……………………………
As “Adam 4.55 litres” states, this is common sense! There is nothing fundamentally wrong with the article in principle: we should be conserving fresh water for agriculture & other uses for non-rainy days! However reading the quality of the article gives me the feeling that this is either a non-serious paper, (write something for the sake of it so we get noticed), or part of a final year students’ thesis, with all the appeal of authority, urgency, detail, factuality, etc. Anyone with a 0.28N (an ounce for you guys in old money) of common sense could write something just as good, if not better! However, what the heck it has to do with global warming I haven’t the foggiest.
It may have been the driest start to a year for a long time in many a place, but good old Mother Nature is certainly dumping her left out share on the UK in September. Oh & August. Oh & July! Oh & probably in October, November, & December, too! Those of us old enough to remember the “Great Drought” of 1975/6 in dear old Blighty, or was that the “Terrible Drought”, or the “Mighty Drought”, or the “Whatever Drought”, (I’ll leave it to the arty types), Minister for Drought Dennis Howels, told the press that it would need to rain continuosly from around Mid September/October, until Christmas to have any effect on water supplies (I know you Wikipedia types will fill the details). So Mother Nature duly obliged! Having said that, I have not heard anything from the Wet Office to the effect that annual average rainfall is getting lower or higher because of Global Warming over the last 30 years or so!
This report follows the standard template:
“World To End!!! Poor And Minorities Hardest Hit!”
Since when does the AGW crowd care about the rural poor?
Bureaucrats are the same the world over. They have no experience of the real world that they seek to rule. Water storage is a very obvious problem that they can understand, but it is not the crux of the matter, which is delivery. Irrigation farming requires vast capital. Not the government capital or World Bank loans that built the dam in the first place, but capital in the hands of the farmer who is prepared to take the risk of putting in the power lines, the engines, the pumps, the pipes, the tractors and combines that are all essential to the total delivery process. This farmer is not a peasant. He is a man who has spent his life on the land. He has been successful enough to have capital to risk. He has total confidence in his own ability to fix the machinery when it goes wrong, in his own man management skills, in his knowledge of the needs of the crops that he plans to grow, of his ability to manage the cash flow so as to keep all of the lenders satisfied. In addition to this he has to have faith. He has to believe that a drought will not come along before he has had a few successful years for the project to be well established. He doesn’t give a damn about average temperature, although depending on location he may be concerned about late frosts. The one thing that is totally outside his control is the incidence of rainfall in the catchment of the dam on which he is to depend. If the rain doesn’t come the dam will run low, or run dry, but the interest meter on his borrowing will continue to tick inexorably.
Farmers are world’s greatest optimists.
“Hmm. Since all weather and hence climate on a longer scalle. essentially chaotic, isn’t rainfall then generally erratic as a consequence of that chaos?. Isn’t that why we have some areas that get droughts on e season and an overabundance of water the next? ”
No. Summer rainfall is driven by short term temperature drops, while winter rainfall is driven by short term temperature uplifts. Changes in the solar wind speed drive the temperature differentials.
http://www.lmsal.com/solarsoft/last_events_20100722_1007/index.html
This describes the process in a given hemisphere, while regional jet stream movements and positions can affect a particular region, such as the incursions of cooler air into Pakistan in July/August that caused the scale of flooding there.
http://www.zeeburgnieuws.nl/nieuws/images/jet_stream_jul_aug_2010.jpg
Further predictable aspects of the solar signal determine the daily timing of rain and storm events.
According to the BBC, a paper in the Proceedings of the National Academy of Sciences (PNAS) now shows that climate change is not responsible for civil wars in Africa.
See http://www.bbc.co.uk/news/science-environment-11204686
Now who would have guessed, civilisation can cope with real exisiting problems like droughts. Water storage, -not really a new concept, as Anthony pointed out- simple effective and cheap and around for several millenia.
Despite the unsupported quotes on increased uncertainty and variability, this is a great article as it avocates dealing with problems in an economic manner rather than fight suspected causes of illusive concepts such as “global warming”.
In Aus the droughts well broken, its flooding:-)
such a pity the ultra green agenda 21 cretins have made it so that people cannot! put damns in without massive paperwork and hoop jumping, to save water at times of plenty.
I have 2 4,000 litre tanks, they were full weeks ago and I have had to watch precious rainwater run away. no funds to buy more tanks,
funny thing, they offer rebates…and the tank prices go up! to exactly what the rebate is. No win for the consumer, plenty for the makers.
earthberms slow and hold water, a dam would have given me 2yrs at least of better than saline bore water to use to grow food!
as an EX Green type I am hugely angry at the politicisation of water and land care.
we did fine without this bulldust and legislation, more fees and charges for nothing!
The report argues against overreliance on single solutions like big dams
They should try telling that to the Aussies, who have water supply problems because all recent damn schemes have been opposed by the enviromentalists.
The first map shows Australia as having a dry summer wet winter. Most of Australia’s rain falls in the tropical zone, over two thirds by most accounts, and that happens during the Nov to Apr period. Second, El Nino leaves the SE dry and converse in the La Nina cycle. The map shows mid range for all cycles.
I agree with Martin Brumby @ur momisugly 12:28. The Greens and Labor stopped construction of a dam, desperately needed in Melbourne on the pretext that CC would leave dams unreliable due to rain deficiency. That particular river is currently in major flood for the second time in three years. Melbourne is now reliant on an extremely expensive to build and even more expensive to run, desal plant. So the Greens stop dams but approve electricity hungry desal. Something smells in Denmark.
The ‘big dam’ problem:
Ericson et al. looked at 40 major river deltas around the world to measure their effective sea level rise (ESLR) and determine the causes.
They found that only 12% show eustatic sea-level rise as the predominant effect. The largest contributor to the ESLR (some 70% of the deltas) was decreased sediments from dams upstream.
Effective sea-level rise and deltas: Causes of change and human dimension implications
http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6VF0-4J3WGFT-1&_user=10&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=3ccb53775be7d1a197d108841290e7be
Nile Delta: ‘We are going underwater. The sea will conquer our lands’
http://www.guardian.co.uk/environment/2009/aug/21/climate-change-nile-flooding-farming
Maged understands better than most the menace of coastal erosion, which is steadily ingesting the edge of Egypt in some places at an astonishing rate of almost 100m a year….
Coastal farmland has always been threatened by saltwater, but salinity has traditionally been kept at bay by plentiful supplies of fresh water gushing over the soil and flushing out the salt. It used to happen naturally with the Nile’s seasonal floods; after the construction of Egypt’s High Dam in the 70s (one of the most ambitious engineering projects on earth), these seasonal floods came to an end….
Oh boy. Rainfall is in the mix. If you thought temp stations were bad you’ll get a real kick out of the rain gauge system.
http://www.amazon.com/gp/product/0465005306/ref=oss_product I was reading this book.
It’s stupid the correct talk, El Ninos have varied in strength over the last 5000 years, it is recorded in the coral. It’s stupid to say that El Ninos are “getting strong because of global warming” using 30 years of data. They can vary from short periods to even a whole century. Interestingly I was reading during El Nino when the warm water 200m down can be pushed up along the continential shelf you can get tropical fish in San Fran bay.
With La Nina, I remember a recent article in Australia saying “Global warming (yawn)” tropical fish found in Tasmania for the “1st time”. This would be most likely the same thing happening here because of the coriolis effect pushing the warmer body of water up against Australia and down the continental shelf.
These warming events are just a factor of the sun and the ocean, the coriolis effect and the kelvin waves moving the warm water around the planet, it is not global warming and there is nothing unique or different. All climate “scientists” should be forced to read this book before the world is destroyed by their stupid policies.
I thought weather IS NOT climate? Or is it climate when it suits the activists clutching for (pretty dried out) straws?!
RW, it is you who lacks the basic knowledge. Read chapter 1 of the IPCC report – or if you know better, inform the IPCC.
Anthony, please fix the typos!
It’s really illogical, in fact irresponsible, for this report to be arguing against building dams.
The most appropriate response to this CAGW story is from John O’Brein penned circa 1921 and is titled ‘said Hanrahan’.
“We’ll all be rooned,” said Hanrahan,
In accents most forlorn,
Outside the church, ere Mass began,
One frosty Sunday morn.
The congregation stood about,
Coat-collars to the ears,
And talked of stock, and crops, and drought,
As it had done for years.
“It’s looking crook,” said Daniel Croke;
“Bedad, it’s cruke, me lad,
For never since the banks went broke
Has seasons been so bad.”
“It’s dry, all right,” said young O’Neil,
With which astute remark
He squatted down upon his heel
And chewed a piece of bark.
And so around the chorus ran
“It’s keepin’ dry, no doubt.”
“We’ll all be rooned,” said Hanrahan,
“Before the year is out.”
“The crops are done; ye’ll have your work
To save one bag of grain;
From here way out to Back-o’-Bourke
They’re singin’ out for rain.
“They’re singin’ out for rain,” he said,
“And all the tanks are dry.”
The congregation scratched its head,
And gazed around the sky.
“There won’t be grass, in any case,
Enough to feed an ass;
There’s not a blade on Casey’s place
As I came down to Mass.”
“If rain don’t come this month,” said Dan,
And cleared his throat to speak –
“We’ll all be rooned,” said Hanrahan,
“If rain don’t come this week.”
A heavy silence seemed to steal
On all at this remark;
And each man squatted on his heel,
And chewed a piece of bark.
“We want an inch of rain, we do,”
O’Neil observed at last;
But Croke “maintained” we wanted two
To put the danger past.
“If we don’t get three inches, man,
Or four to break this drought,
We’ll all be rooned,” said Hanrahan,
“Before the year is out.”
In God’s good time down came the rain;
And all the afternoon
On iron roof and window-pane
It drummed a homely tune.
And through the night it pattered still,
And lightsome, gladsome elves
On dripping spout and window-sill
Kept talking to themselves.
It pelted, pelted all day long,
A-singing at its work,
Till every heart took up the song
Way out to Back-o’-Bourke.
And every creek a banker ran,
And dams filled overtop;
“We’ll all be rooned,” said Hanrahan,
“If this rain doesn’t stop.”
And stop it did, in God’s good time;
And spring came in to fold
A mantle o’er the hills sublime
Of green and pink and gold.
And days went by on dancing feet,
With harvest-hopes immense,
And laughing eyes beheld the wheat
Nid-nodding o’er the fence.
And, oh, the smiles on every face,
As happy lad and lass
Through grass knee-deep on Casey’s place
Went riding down to Mass.
While round the church in clothes genteel
Discoursed the men of mark,
And each man squatted on his heel,
And chewed his piece of bark.
“There’ll be bush-fires for sure, me man,
There will, without a doubt;
We’ll all be rooned,” said Hanrahan,
“Before the year is out.”
Have a nice day 🙂
“IWMI’s advice for governments is to do a better job of analyzing the potential benefits for economic development and poverty reduction and to pay more serious attention to the social and environmental consequences.”
Thank you captains obvious. 😐 I hope we didn’t pay too much for this report. Next up, how irrigation can improve crop yields!
RW says:
September 7, 2010 at 12:21 am
“[“Hmm. Since all weather and hence climate on a longer scalle. essentially chaotic…”]
“This statement is illogical and wrong. Climate is not chaotic. This is really, really basic knowledge and I am astonished that you would say something like this.”
Please RW – Send us a mathematical proof of your assertion. Please begin by writing down all of the differential equations require for describing the climate (you’ll actually far ahead of GISS on this). Then show that the resulting system is both well-posed mathematically and cannot admit chaotic solutions…
Next thing you know, he’ll be repeating the absurd notion that climate is a boundary value problem…
All this climactic variability over the long-term has been known for the last 4 cycles (1870-present).
All the big dams were built with at least 3 cycles under the belt.
The attention span of those who manage the water, however, is no longer than half a cycle.
And that is the problem.
They panic at both ends of the spectrum while, at the same time, go on water dispensing sprees in between.
Water management Warning: Children at play.
As a resident of the dryer western states here in the US, I have seen numerous small ponds with breached earth dams. Built in dry years and destroyed in wet. I can find two huge basins terminated in dams, that are nearly dry for 19 years out of 20… and, I fear, another, nearby, to be dry in a couple of years.
Chaotic? We need grants to warmists to straighten this out.
Major discovery, water management is important. Wow, to think such a significant issue has been missed for all these years. Good thing this study was done so now we can all understand that some years it rains and others it doesn’t.
Just substitute ManBearPig for whenever they say “climate change”, or when they say “in a changing climate”, substitute “when ManBearPig comes”, and when they say a “more hostile and unpredictable climate”, of course that would be a “more hostile and unpredictable ManBearPig”. Then, at least the paper makes sense.
Of course, it will be argued that it is the richer countries fault, due to all the nasty C02 they’ve emitted, so they will be on the hook for dealing with any water shortages and/or flood damage.
Since all weather and hence climate on a longer scale is essentially chaotic
Chaos is in the mind of the beholder. Chaos exists as far as we choose to ignore nature´s laws and replace them by a mathematical chaos.
Another danger is that badly planned storage will not only waste money but actually worsen the negative affects of climate change
…..??????????????????????????????????
WUWT?!!!!