Know the movie magazine every weekend on d w. In recent years extensive flooding around the world has increased causing catastrophic damage in many countries. Excessive pumping of ground water the building of dams the added weight of huge buildings all contribute to the looming disaster as sea levels rise a number of coastal cities sink becoming more vulnerable to flooding. More than a third of the big urban centers located by the safe are endangered threatening the Living Conditions of millions of people. Measuring the stakes in economic and human terms scientists agree that action must be taken quickly but what should be done how can a huge city and its inhabitants be protected from flooding our high a holes enough or should we reinvent the city for the twenty First Century and beyond this is an urgent question for engineers architects and urban planners or laboring to come up with solutions to reconcile man with nature. In thailand bangkok is a striking example of an urban center regularly subjected to floods which imposed terrible consequences on its population and disrupts the entire countrys economy. Yeah new moon. Soon brings rains which sustain its agriculture the timing of the season has become unpredictable in an era of Global Warming the comet uses networks of dams to regulate the flow of water retaining it when there is rain releasing it during drowns. In two thousand and eleven the system is completely overwhelmed by that years weather patterns. Or in two thousand and eleven there are so many monsoon come to the country unless were actually to the northern part of thailand and there are too much water above that dam we have eight or nine dams in the middle of the country. The dam operator which is belong to the electrical generating corporate of thailand. Where the it will be a drought or not so they kept the water for so long in to about sixty seventy eighty percent capacity of the dam to make sure that they have water for every gay shit but somehow there is too much water. So they have to leave the water and in order to listen what that they mean is to fall fast at some short time so thats why we have the situation in two thousand and eleven that. Water fall into the city of bangkok where there is no way to accord near between them beforehand. As a result huge quantities of water were released into the rivers and before reaching the sea the waters poured into bangkok. Built in the one nine hundred eighty is the kings dike one hundred seventy kilometers long is normally able to protect the center of town from floodwaters in two thousand and eleven the dam itself was submerged. The government then decided to raise the height of the dam by two meters. And six hundred thousand sandbags were deployed to save the city center. That. Was. On the other side of the dike thousands of people were left to cope with the consequences of the flood. For three months inhabitants lived in dyess sanitary conditions the flood waters were contaminated by sewage and dead animals. But the people behind the a sandbag suffer. They want to take this back the least of water into the sea the so there were some fighting between the two sides of the people. Who have. Have a look at this filthy water how can people live like this they protected downtown bangkok but not the suburbs they only protected many body in the city of bangkok. When the army intervene to protect the dying from the anger of the population. The human toll was enormous the floods also impacted the nations economy. And at the time the leading export of rice in the world lost a quarter of his production. Already know. This area we have the right direction. All of the country. To make sure that in the dry season during the flood. The production of the rice has been. In bank. Many repercussions first and most heavily on the lives of inhabitants but also in the Financial Stability of the countries affected in washington d. C. Experts from the world bank calculate the social and Economic Costs of such disasters. The problem with the link between floods and poverty is that the poor are more vulnerable and proportionately lose more than the rich its a machine to increase inequality so if youre a little poorer than the others you live in an area which is more at risk and youll have more chance of losing what you have during the floods so trying to improve your economic status will become even more difficult. So you feel. With me even with only twenty centimeters of Sea Level Rise if you take into account the subsidence mechanism you will see that the costs of flooding in these large coastal cities increases from sixty seven billion dollars today to amounts to become absolutely gigantic. So in the scenario we were looking at where nothing is done at all we arrive at costs that amount to a trillion dollars this shows that the scenario where we do nothing is not realistic and i we had just. When bangkok was facing that severe flood we realized that the city is not just a thai city it is a world city there was a total Economic Cost of almost forty five billion dollars because of the floods in late two thousand and eleven but perhaps even more striking was that is that the effect was felt all over the world the price of hard drives for computers went up by a hundred percent because fifty percent of hard drives in the world were being produced in and around bangkok at that point in time the supply chains were disrupted but six thousand rules were affected one of the major airports was shut down this is one of the challenges of globalisation its a very integrated world and bangkok is very much part of that Global Supply chain and we felt that not just sitting here in bangkok but all over the world. A combination of factors rising sea levels ground subsidence and lack of protection has made bangkok extremely vulnerable. The thais have no better option than to reimagine the city. Their solution of moving is not possible we cannot move you know in tempo. In the palace they can is not possible to move ok so what we have to do is we need to protect it. It for but on this of course yes we cant wait for disaster to strike before acting we have to do exactly the opposite of that is we have to act before the disaster hits. The problem when you look at how things go politically in countries usually the major changes in regulations are the Big Investments for protection i place after a disaster. Nonaction is not an option we have to invest in coastal differences in these large cities to protect the population and to protect the economy because we see that in many countries these coastal cities are central to Economic Activity so. The economic. As urban populations grow big urban centers develop accordingly. But what effective means of protection do they have. When we think about sort of responding to flood hazards theres really three things we can do in the general sense we can retreat so we can not live there in the first place so we we just theres nothing to be damaged. We can actually it will be used as accommodate a flood proof you can make sure the buildings are flooded theres no damage will make you can elevate building so theyre above the flood waters or you can protect which is maybe what most people would think of whereby you would build barriers and dikes or big sand june the whatever things that keep the sea out of the city. Building walls for protection is an ancient tradition in china. Chinese engineers took inspiration from the great wall when constructing coastal towns which is evident in the case of shanghai. Happened especially in the summer season. High tight and the storm and upstream come together so you need a new situation happened sometime in the sea level one risk to quickly. Your five meter and this is a high or low. If such a stream situation happened this is a dangerous challenge of. One hundred kilometers. To protect the. Coastal area. And then in the future. Probably want to build a mall. Only want the government. On the other hand that it is also pay such as in the law to protect people from the sea. Another problem is a. Lot of low water and the last. Wetlands are natural buffers they have the capacity to retain water leaving intensity of. Their preservation is essential. But are we allowed to scotty well sure to protect. Which to protect it. Not only protect shy. But also provide the habitat of. The fish so that men dont pay a lot of attention. And for this we have to consider both the cheapest options and thats why theres a lot of work on the preservation of natural areas and wetlands that help cushion the impact of storms and are much less expensive than our defenses and also because we always need. Dikes and strong protections particularly for the most densely Populated Areas think of Funding Resources so cities going to for them. So one can very well imagine having coastal areas protected by walls six eight or ten meters high we know how to do it technically the question is do we really want to live behind six eight or ten metre high walls. Japan is also exposed to major risks of flooding quakes tsunamis and typhoons the region regularly experiences extreme weather events. Or forit is in tokyo deployed an impressive Protection System. Tokyo is a major mega city maybe the largest mega city i dont know tokyo yokohama maybe thirty five Million People a lot of people and when you get a lot of people youre going to get subsidies. They have great engineers and they started to understand the connection between human decisions and this rate of sinking and theyve largely changed their behavior as a country as a city and the rate of substance has basically stopped so theres a great fear. Back with them between human decision making. And whats happening in the landscape. To minimize flood risks three hundred years ago the japanese diverted the turn a river to make it flow into the Pacific Ocean instead of the bay of tokyo. The huge canal dargon the Twentieth Century also helps to drain excess water. Thanks. To complete the preventative measures engineers also created a vast underground drainage network. In. This complex is to handle water mainly flood water by retaining it so that there is less water in the soil when the flood happens. But. Its been used ninety one times over the past twelve years thats on average about seven times a year since the opening of the facility. To cope with air quakes the underground network has many backup systems. And when a bigger that way or large flooding happens we have a backup plan a backup power system so this complex will still be operating normally. So there is no problem that. This huge network is geared to deal with the types of extreme events tokyo experienced in the past. Elaph. Champions port area is particularly vulnerable to flooding. Here another system protects the inhabitants from high comes to waters. For the case of storm saatchi or tsunami the. Water comes from the bay and going into this tunnel and finally goes to. This small riba through the this leave our mouths and the would go into the small river im going downtown tokyo and in downtown they double down to the frog obarr from place to place so soon this smooth tunnel slowly about that tokyo is not the well protected that would come into the into you made it into tokyo downtown area. So that we constructed dikes and the has holes and also for the gate to protect this in that area. So were now putting it on the inside of the. Height of the moon was almost one point five meters but after we saw outflow on the fifth line it was an eight the height of the floor becomes three four and five meet us higher than a site so there are more than twenty thousand vote on the world against the fish in this area. All of these flood gates all remotely controlled. By whom. We controlled ten watergates from the center and if a typhoon is approaching tokyo. The Meteorological Center will issue an alert for heavy rain and flooding and then well set ourselves in a motion. Because again we give the alert that the sea level is rising and check the gates. Sr tension citizens the flood gate is closing. The network of flood gates is also reinforced by sliding barriers within the streets of the city itself. So here is a sliding door for stop signs and this move to this site in case of storms ice and incoming and here is a low or a low we have closed because on the other hand the other side then they come and. Go and hide their stuff. So after the war in the closed this side is unsafe area so the people should leave their car outside and then into the safe haven. It is possible for us to cultivate how much we lost for the case of product to stop such and this amount is far much greater than the cost for countermeasure us so we comment that you would have to stop this huge loss of fortune with a case of such a threat it is necessary to thanks present storm Science Media and those heighten the total hype towards and this is really much cheaper than the possible loss of fortune. Japans system of defense against flooding is predicated on the previous behavior of typhoons. In todays world Global Warming has altered the projections of the engineers. Storm such. Global warming is playing a very important. Increase of sufferers temperature. Intensity increases and the sentry we find out that dependency or behave come into japanese island changed previously time home by storm came to japanese and hunt so then they speed up and run away from the island but listen to the. Long are in the iron. So this is what we are afraid that. Comes to japanese time and to talk of. In the wake of increased intensity of natural disasters and the accident at fukushima the japanese are realistic sometimes projections even the most sophisticated cannot guarantee the safety of the population. Truncates evacuation systems and Risk Awareness japan has developed an arsenal of defenses to cope with floods and minimize their impact. Elsewhere in the world many cities even some highly developed have not sufficiently anticipated these risks consider the case of new york city in two thousand and twelve Hurrican Sandy revealed how few protective measures had been put in place. Civil authorities overlooked natures warning signals. Thats a little white box behind me is a very famous tide gauge its the second oldest gauge in the whole United States has been faithfully measuring the tides the rise and fall of the tides every day for since the last one hundred fifty years or more. In recent decades sea levels have risen significantly in the new york region increasing by four millimeters compared to three millimeters in the rest of the world. This difference may be explained by complex geological processes occurring on the American Continent. But this rising. Were measuring here up to date is mainly whats called the. Continental rebound from the last ice age when the whole north American Continent was covered in ice after the ice melt at the level of that up. Like a loaf of bread been baked in the crust prizes but at the edges here new york is actually going down the whole thing is tilting. And so even though in the middle of the country its going up harris going down and its going down about thirty five centimeters every one hundred yes but that one example right. With with Climate Change from excess burning of fossil fuels oil coal and gas and the up was fair we can expect the water level here to rise one or two meters within the eight before the end of the century and thats a lot thats a lot to worry about. Being. Behind me was new york harbor and past the statue of liberty we have the ocean for many years ive been proposing that we need a regional solution to the protection of new york city and northern new jersey not just the new york city solution not just the new jersey solution but a combined solution. The plan is to construct european style storm surge barriers across the entrance to the harbor where that where the hudson river empties into the ocean. Oceanographer Malcolm Bowman proposes a barrier to be constructed off the coast of new york and new jersey. This structure tens of kilometers long would provide protection for the city from the effects of storms. Many countries decided long ago to build similar structures. In the netherlands a third of its land is below sea level the doc should build over twenty five kilometers of front barrier since the nine hundred fifty s. The one that used to shelter is nine kilometers long and the longest and the one. In england downstream from london the thames barrier protects the city from seasonal flights. These line of defense has proved effective against tide and storms but new yorkers have declined this option. The concept of the storms or the bears have been out there. Really since the you know a little bit for sandy and then even in the aftermath of sandy the conversation girl allowed or theres a false sense of security that comes with this idea that theres going to be a big wall thats going to protect us from the ocean instead we need to find a better way to reengage with water and recognize that were going to do everything we can to reduce that flood risk in projects that are that fit the local environment in a much better way that address the long term Sea Level Rise condition that also provide protection against coastal storms and that we can begin working on right now. Reconnecting with water being in harmony with the environment and adapting these terms describe a new concept that of resilience and there consume support this movement believe that new york cannot totally protect itself from floods therefore its best option is to accept its fate prepare to bounce back reinvent itself and live with a threat. To our vision for resilience is that our neighborhoods our economy our essential Public Services are ready to withstand that emerge stronger from both the impacts of Climate Change and other twenty First Century threats and thats really its the linkage of those two things its the reduced impacts and its the quicker recovery times that really in compas what we mean by resiliency here in new york city. Urban resilience is the ability of a city not just to bounce back to. And grow in the face of