Agriculture under Water stress: Design Opportunities in India

Design for Agriculture: Who is addressing these issues today?

Prof M P Ranjan

Image01: One of the first design projects done at NID by the first batch of Product Design students in 1967, a Seed Drill that could be pulled by bullocks in small Indian farms. Images are from the NID Documentation 1964-69 (Download 25 MB pdf here)

The World is facing climate change and India is facing severe draught across 250 districts, almost half the country, out of a total of 604 administrative districts have been declared drought hit this year. The stress will be on the local farmers who have to fend for themselves in such times of monsoon failure and they are at the mercy of the elements and also an uncaring administration that would wait till the media raises a stink before any action is taken and usually all too late. This is perhaps where design imagination should come in and anticipate such situations and have strategies in place to meet the contingencies with imagination and viable offerings well before the event takes over. Are we ready for it? Far from it, as it apparently seems to be, but why?. Our design infrastructure is quite incapable of making any immediate and specific offering since no investments have been done in the past to explore and address such systemic eventualities that seem to revisit us time and again. Agriculture is unglamorous and unlike fashion gets very little attention from the media and from the design community as well. In the 60’s and 70’s Bucky Fuller wrote about an anticipatory design science movement that could and would address many of these glaring eventualities and he went about setting a personal example with path breaking thoughts and conceptual offerings that could be followed by others in the years to come, most of them well documented. The Bucky Fuller Institute now has instituted an annual design competition that is looking for mega solutions that follow the Bucky Fuller spirit and each year one design team is awarded the coveted Bucky Fuller Challenge Award while several others are honored as runners-up and finalists, all showcased at the Challenge website here : Bucky Fuller Idea Index

Image02: A low cost grain thresher designed in 1968 by Product Design students at NID as a response to the challenge from the Eames India Report of 1958. (Download 360 kb pdf file here)

At the Government of India level however, we seem to think and act as if design applies only to the needs of organized industry which may perhaps explain why the National Institute of Design (NID) is located under the administration and budgetary control of the Department of Industrial Policy and Promotion (DIPP) and perhaps this also explains why NID has never had invested in an education programme dealing with design for agriculture all these years. On the other hand media thinks and acts as if design is located in the arena of fashion and huge media space is accorded to this form of design at the sad exclusion of all other kinds and genres of design, the kind that is desperately needed across as many as 230 sectors of our economy today. The National Design Policy too is silent on the needs of this vast sector and it is particularly so on the needs of the public goods and services that are usually the domain of Governments to serve, being mostly ignored by private industry since the consumer base is too diffuse to be of immediate value to them. The economists who advise our Governments and industry tend to overlook the sector as a whole and leave these matters to politics and legislative processes under the broad umbrella of development programmes, but usually to provide lip service just before the elections. There are a few exceptions to this rule however and they include Hazel Henderson who debunks the theories of Nobel Prize winning clan of the Chicago School and Brian Czeck who in his obscure book titled “Shoveling Fuel for a Runaway Train” debunks the “growth at any cost theories” of the Keynesian school and proposes a more humane and ecological form of economics that looks at a steady-state and sustainable models of development.

Image03: A small selection of NID’s Agri-Expo, Rural and Water related projects done over the years.

With much of India facing a severe drought we need to look afresh at the needs of our agricultural sector that are hard hit by the absence of water. Design schools in India have ignored this sector except in fits and starts and that too in some peripheral areas of need. Government too did very little to encourage the design schools to take up the challenges by providing the required funding and the mandate to act in these areas. The NID, did however design a major exhibition for the Department of Agriculture way back in 1977 but this was a trade fair and after much chest thumping about the success of the mega-show which was impact assessed in those days by slick marketing teams from the advertising industry everyone seems to have once again forgotten the sector as a whole. I recall that the early projects undertaken by the students of the first product design programme at NID in the late 60’s included several tools for the agricultural sector but over the years we seem to have distanced ourselves from the needs of this huge sector that provides maximum employment across the country. Perhaps we were still under the influence of the Eames Report and the teachers and studends did look at the grassroots for inspiration and direction for action. Why should not the multiple new NID’s that are proposed under the new National Design Policy look at these different sectors of the economy rather than taking the NID Ahmedabad as a role model and continue to address address only the market driven sectors of lifestyles and automobiles and the traditional sectors of manufacturing and communication sectors. The need is clear from over 230 sectors of our economy and we need to build a market for design graduates who are capable of working in these neglected sectors and the Government has a major role to play if this is to happen. In the late 80’s I do recall that NID had an assignment to design tractors for an Indian manufacturer but like all other product design projects from that period this one too was bound to sit on the shelf due to the lack of any competition in the Indian industry in those days.

Image04: A view from an earlier post on water harvesting system designed by Dinesh Sharma for Furaat Systems in Ahmedabad inspired on the traditional step wells of Gujarat and Rajasthan.

Earlier on this blog I have shared the work of an NID graduate, Dinesh Sharma, who by drawing inspiration from the Gujarat and Rajasthan traditions of step wells made from modular blocks has designed a water harvesting system that is both elegant as well as functional. The Furaat Water Harvesting system is just one of the many possible approaches and we need too make concerted investments into the design and testing of hundreds of approaches to deal with water in our lives to face the realities of our situation in India and to find solutions for all of these, from region to region.

Image05: P Sainath as seen on Google Images search.

Farmer suicides are today a way of life in most drought hit districts since crop failures and the search for local ground water sources leave our farmers with huge debts that they cannot service and the spiral down to suicide is an almost foregone conclusion. P Sainath, an Indian journalist has spent many years studying the phenomenon of rural poverty starting with his seminal book titled. “Everyone Loves a Good Drought: Stories form India’s Poorest Districts”, in a stark commentary on the corruption and lack of care that is symptomatic of the Indian condition, particularly in rural India. According to the review on Amazon.com – “They reveal how poverty is compounded by corruption, incompetence, laziness, greed and stupidity. Instead of improving life, many government schemes/development programs only make the poorest poorer, while making corrupt politicians, land- owners and the complacent new middle class of Mumbai (Bombay) richer.”

A specific Quote from India Together online about the correlation between local borewells and farmer suicides tells us a chilling story. Quote
“Sinking borewells, rising debt 
P Sainath. 

June 2004: NALGONDA, MEDAK & NIZAMABAD (Andhra Pradesh): Musampally has more borewells than people. This village in Nalgonda district has barely 2000 acres under cultivation. But it boasts over 6,000 borewells - two to every human being. Over 85 per cent of these wells have failed. The rest are in decline. The desperate search for water has bankrupted a once prosperous village….” UnQuote Read the full story here.
And another view from Wiki on Farmer Suicide here

Image 06: Stills from an online video offered by Nature Magazine about the water hot spot developing in western India with severe water stress and ground water depletion in the States of Rajasthan, Punjab, Harayana and Delhi which also happen to be the food bowl of India.

The alarming news is that this water stress is being felt across the food bowl of India across the fertile plains of Punjab, Harayana and Western Uttar Pradesh. While the Design Concepts & Concerns (DCC) course has been addressing the various issues of water in our lives across many domains and verticals we have constant news flows about the shortage of water coming from many sources. The latest one is the result of a six year long satellite based study conducted by a consortium of scientific institutions led by NASA. The alarming video can be watched at the Nature Magazine website at this link here. We need to seriously address the issues that this holds for the design community in India and how we can rally to deal with these realities on the ground and how well we are currently prepared to face these realities. That design can address this kind of challenge is not really in question since this is the only discipline that can bring an integrated and focused body of human experience to bear on these really wicked problems with imagination and political will to find lasting solutions that will get us through this impasse.

Image07: One of the short listed projects under the Bucky Fuller Challenge–New Mexico Renewable Energy Strategy Maps for sustainable regional development.

The Bucky Fuller Challenge Award for 2009 went to the sophisticated Urban Transport solution that redefines personal transportation in our cities. But for me the runner-up, titled “Dreaming New Mexico” shows great promise as a way forward with local planning taking the lead and with the use of maps local communities are involved in envisioning desirable and viable futures which is followed by a sustained programme of “Bioneering” involving the use of imagination, innovation, technology as well as political processes to get the task done. Regional design schools could help locate these dialogues with the community and assist decision makers build new and imaginative solutions to address a host of local issues towards resolution of the same.

Image08: Paul Polak and his product offerings for marginal farmers in Asia and Africa through his international entrepreneurial initiatives.

India needs to look seriously at the needs of our agriculture and rural micro-industry sectors and not just the crafts sector that brings in export income by through a huge number of export oriented industries. The benefits of the huge export sector rarely reach the remote rural producers but increasingly the strategy has been to cluster the production in class two towns and cities and real rural producers are left to fend for themselves. Paul Polak–founder of Colorado-based non-profit 
International Development enterprises (IDE)—is 
dedicated to developing practical solutions that attack 
poverty at its roots, who in his book “Out of Poverty” outlines strategies and products and services that he has developed to achieve huge successes using appropriate design at the marginal farmer level with huge success. Design in India needs to look at these models of rural development and not just the “Lifestyle product” category for the export markets with our crafts capabilities. Another example of design at the periphery comes for the “d-school” in Stanford University’s Stanford Institute of Design where their Executive Director, George Kembel has taken their students to Nepal and Thailand to search for real challenges to create entrepreneurial designs for extreme affordability. (download pdf of the d.school offering here)

India needs to take a leaf out of these initiatives and try and integrate design into our Agricultural Universities or focus the attention of the next NID fully on the needs of the agricultural sector as an integrated offering that looks after the design needs across all the sectors of need from water harvesting and management to managing the cold chain for reaching the food to the consumers across the land and all the tasks and services that come in between these two extremes from the point of view of our fragmented farm ecology all over the country. Wikipedia gives a list of 41 Agricultural Universities in India and it is my view that all of them need to integrate design abilities and actions into their many programmes if they are to be successful to prevent farmer suicides in the future.

Prof M P Ranjan

Rainwater Harvesting: Furaat Systems Design addresses many levels

Furaat Systems addresses many levels of design in Rainwater Harvesting

Image: Poster from Furaat Earth Pvt Ltd showing the systems overview
Science is the search for knowledge that we all depend upon to tell us how nature works and it is also the vehicle through which this knowledge is refined and tested through a process of hypothesis creation and peer evaluation. Technology on the other hand includes the methods, procedures and tools employed to use this knowledge into shaping dependable and predictable results. However it is rarely understood that generic design which is a natural human activity usually precedes both these stages in the creation of imaginative new products and solutions which may be at first intuitively and creatively apprehended into a workable manifestation and then refined by a process of evolution through multiple cycles as in the case of our crafts and numerous traditional applications. In the case of water harvesting systems in India we have a long tradition of applications that have been evolved through the fertile use of local ingenuity and hard earned insights over centuries of evolution and refinement.

Modern design on the other hand contributes to both knowledge creation as well as in helping in the application of existing knowledge in systematic ways to create compelling new solutions that include the multiple dimensions of economic, technological, sociological as well as the aesthetic besides addressing the functional and emotional needs of the user and helps meet the requirements of the task at hand in an elegant manner. This multidisciplinary quality of synthesis is unique to design innovation since it is a framework that enables each contributing specialization and the knowledge held therein to be brought into a particular configuration that opens the huge potential and inherent value in a manner that it can be harvested by a number of stakeholders in a manner intended by the collaborators. Design as we know it today is therefore a negotiated space and an expert procedure that helps unlock the value potential that is found locked within the particular situation. This unfolding has been the subject of much recent research by world design thought leaders as seen in their books such as Tomas Maldonado, Nigel Cross, Harold Nelson, Bryan Lawson, Klaus Krippendorff, Peter Downton, Roger Martin, Don Norman and others who have written books on the subject dealing with design theory and action. Many of them are members of the Design Research Society, which is composed of members who work in the area of design research and who have contributed to shaping the field in recent times through their writing on the subject. I too have many papers on design theory which try to explain the field and these can be downloaded from my website. In this particular post I am looking at how design has helped unfold value in the specific area of rainwater harvesting system and I will expand on this a bit later. In future posts I wish to look at many other fields where the use of design has made a huge difference and these too will hopefully help us see how design can be used across fields, and in my considered view India needs this kind of design action across 230 sectors of our economy.

Many places in Western India, particularly in Gujarat and Rajasthan there are age old traditions of water harvesting that include both the significant forms in which this art is performed across the region. The balancing of the underground aquifers through the strategic location of small ponds and lakes near a village has served our villages well over the years in helping the people manage their water resources for a year round availability. However with a greater dependence on ground water utilization by pumping in both our rural as well as urban locations we have increasingly seen the water table receding year on year till we reach a crisis point of no return. Many of our regions still receive good precipitation during the monsoon season but due to rapid drain-offs from the catchment areas into the storm drains and rivers we see very little of this water being recharged into the underground aquifers since even the old lakes have now been filled up in the creeping habit of urbanization. Cities like Delhi and Chennai have been facing an acute shortage of drinking water and this crisis is being experienced in many other parts of India as well. The traditional wisdom of holding the rain water run off in shallow ponds near the village seems to be replaced by a new fangled dependence on the deep bore pump and the imbalance of the situation is now showing up in the water shortages in the near term and in climate change at the macro level. Sensitive activists have raised this issue in a number of public for a and some have gone further to use documentation and scientific arguments to show us the consequences of our continued use of ground water resources while not addressing the need for recharge both artificially as well as in the natural way as far as possible.

Great examples of traditional water harvesting systems exist all over Gujarat and Rajasthan. The best known and celebrated examples are the Step Wells of Gujarat in Patan and Adalaj near Ahmedabad. In Ahmedabad city, houses in the traditional Polls had used the underground tanks to hold clean rainwater for use through the year. Most traditional houses in the Polls were equipped with such a well-designed system of copper pipes and dark underground sumps sufficiently large to hold a full year’s rainwater supply for drinking needs. Gandhi’s house in Porbunder is a specific example of this kind of rainwater harvesting that was practiced in the Gujarat region. The Centre for Science and Environment (CSE) in New Delhi showed leadership in the awareness building activity through their book on traditional water harvesting systems called “Dying Wisdom: Rise, Fall and Potential of India’s Traditional Water Harvesting Systems” that was published in 1997 by Anil Agarwal. The CSE has sustained its efforts at this awareness and legislation provoking efforts and studies over the years. As a result, today we can see many parts of India have new laws in place that make it mandatory to implement water harvesting systems in all new constructions and in some cases even in existing buildings. The CSE has published a “Water Harvesting Manual” with case studies from Delhi that provides guidelines for public action. However the creation of guidelines and principle diagrams to manage the flow of rainwater from rooftops and catchment areas without contamination into filter beds and then on to the storage or recharge systems is not sufficient to make it happen in a functional and a high quality manner in the real world. Each site needs to be planned and designed to meet the volume of run off as well as the storage or recharge capacity that the system should address. Alternately this leaves a space for several design opportunities for the creation of new products and services that can be offered in a professional manner by an entrepreneurial intervention. It is in the creation of such dependable and efficient as well as elegant systems does design come into play and this can demonstrate the value that is inherent on the situation, much of which is not easily visible to the eye of the perceiver.

Image: Furaat System under installation by two persons team.
It is one such offering that has been made by the Furaat Water Harvesting system that has been designed for the Ahmedabad based company by an NID graduate of Product Design, Dinesh Sharma. The company, Furaat Earth Pvt Ltd, was set up by the entrepreneur brothers Habil and Yusuf Attarwala with the intention of reaching action on the ground with a small investment rather than just talking about the need for awareness and local action. In the last two years over 400 installations have been achieved and this year has seen a growth in both acceptance and in business with over 500 installations being considered, each costing approximately Rs 30,000 and their message is being heard due to the value that they bring by the use of their successful modular design. The Furaat system can be used for both kinds of applications, that is, storage type or ground water recharge type of application. In the first case the system on offer can form the first stage of the collection and filtration process while a variety of storage types can be used downstream, and in the second case the modular units can be installed in a variety of capacities to recharge deep ground water reservoirs using deep bore wells as the preferred route for the ground water recharge process. While there are so many traditional and scientifically developed systems why are we looking at one that is developed by an industrial designer using the principles of design? This will become clear when we compare the features as well as performance across a number of parameters at the same time and see which ones stand the test of the harsh reality check that is done in the marketplace without subsidies of any kind.

Image: Details of the Furaat Rainwater Harvesting System
The product will have to meet customer requirements across these multiple attributes if it is to become successful in the marketplace. It has to be cost effective and this is achieved by the modular construction that is on offer. Two key components are used in the product – an octagonal horizontal component and a rectangular vertical component – each with a simple locator detail that uses spherical glass beads in a patented configuration to lock the components in place. These are made in high quality concrete castings with precision and durability and in the long run these offer reuse and recycling possibilities in case the location is to be changed in the future due changes in the underground water table characteristics or in new structures on the surface as the site is developed. This is a hidden feature that protects the investment and also significant is the ease with which the well components can be assembled, maintained and cleaned after a few monsoons. All water handling accessories too are made of industrial grade metals of high quality that provides durability, performance and filtration standards that are extremely high and the sand and gravel beds at the first and the last stage too can be cleaned with ease since the design affords easy access as it is like a step-well with the dimensions matched to human proportions for lifting, access and climbing as well as being secure in the quality of filter performance that is guaranteed by the company. The pdf file available at their website gives a poster showing areas of application and more details of the construction and the features can be downloaded from their site here. The modular construction gives the user and the planner flexibility in making the particular unit to suit the needs of the site condition as well as the available budget since a one level, two level or three level or even a multi-level unit can be made with the same basic components in a very short time. Installation can be completed in less than a day by one or two semi-skilled masons without the use of hoists or cranes to erect the well components. Ground water recharge if done carelessly can be quite damaging for the aquifer since it is easy to use artificial recharge to help introduce contaminants and surface pollution into an aquifer if the filtration process is carelessly handled.

Image: Postcards designed to reach the message of rainwater harvesting to school children
Water is serious commodity that needs great care and attention and we need a variety of systems that can take care of local variants from the point of view of precipitation, terrain, geological attributes as well as population stress and other factors. Design can play a great role in examining and building imaginative solutions that are economic, appropriate and culturally suitable for the particular location. John Thackara in his recent book review has strongly recommended a book on water management titled “Dam Nation: Dispatches From the Water Underground” by Editors Cleo Woelfle-Erskine, July Oskar Cole , Laura Allen, and Illustrator Annie Danger. This brings up another point for us since design need not end with the product in need but can extend to the graphic and systems devices and methods that are used to promote and build awareness about these systems in our wider population. Here the communications too could be designed and the Furaat team has produced posters, flash cards and other communications that can help bring awareness to local schools as well as to parents through their children so that eventually the action on the ground is both significant and effective. Water and its effective management is definitely one major sector that can benefit from design thought and action I would like to see that the Government to include it in the National Design Policy initiatives and just like this one neglected sector (from a design opportunity perspective) we have another 230 sectors that too need urgent public funding and design attention. John Thackara has called for a movement to be put in place to support "collaborative innovation in all public investment in the UK and we can certainly benefit if we can bring these actions to India across our vast landscape with its huge diversity of regional, climatic, biotic, cultural and geological variables that renders central planning so ineffective. The National Design Policy could take a leaf out of the DOTT07 initiatives of the Design Council UK and now the DOTT07 Manual is available online in part as a digital file and as a print product it is available at cost.