Sandip Das | New Delhi | Published: Jul 31 2014, 01:20 IST
The Narendra Modi government’s decision to disallow field trials of 15 varieties of genetically modified (GM) crops came on top of several state governments virtually thwarting such trials of 45 GM crop varieties approved by the regulator during the previous UPA regime.
The Genetic Engineering Appraisal Committee (GEAC) gave approval for 45 GM crop trials ahead of the Lok Sabha elections. However, states like Bihar, Madhya Pradesh, Rajasthan, Odisha, Tamil Nadu, Karnataka and Kerala refrained from giving no-objection certificates, which are mandatory.
The GM crops cleared by the GEAC for field trials include rice, wheat, maize, chickpeas and cotton varieties. The approvals in these cases were given during March-May 2014, when M Veerappa Moily was the environment minister.
The trials are continuing only in a few states – Punjab, Haryana, Andhra Pradesh and Maharashtra.
On Tuesday, environment minister Prakash Javadekar, after a meeting with Sangh organisations, said a decision was yet to taken on field trials of the 15 varieties of GM crops, including rice, mustard, cotton, chickpea and brinjal.
The companies investing in the research and development of GM crops have termed the move, amounting to putting on hold trials indefinitely as ‘anti-science’ and said it would delay the use of biotechnology in the agriculture sector.
Tuesday’s development added to the uncertainty over the fate of 70 new applications for the GM field trials pending before the GEAC.
“The government’s decision will demoralise scientists working in the field of bio-technology and push India’s GM crop research by many years. While taking into account the science and scientific facts, we expect the government to make an informed decision prior to putting any restriction on R&D of GM crops,” Ram Kaundinya, chairman, Association of Biotech Led Enterprise (ABLE) – Agriculture Group told FE.
GM technologies can control pests and reduce insecticide usage, help farmers in managing weeds and also save crops from drought, flood, heat, cold, disease or viruses.
Meanwhile, senior scientists with Indian Agricultural Research Institute (IARI) have said the field trials would commence in states that have provided the NOC. “Following the NOC, we follow scientific validation process in the trials for ensuring that the concern crop is suitable fore the region,” KV Prabhu, Deputy director, IARI said.
Since the introduction of BT cotton in 2002, no food crop has been introduced for commercial cultivation.
Since the introduction of BT cotton, the country’s annual output has increased from 13.7 million bale (one bale is 170 kg) in 2002-3 to 36.5 million bale in in 2013-14, a huge jump of 166%.
The environment ministry led by Jairam Ramesh, in February 2010, had imposed a moratorium on the release of Bt brinjal — the transgenic brinjal hybrid developed by Mahyco, a subsidiary of global seed giant Monsanto. This was the first GM food crop to be approved for commercial cultivation after going through rigorous field trials.
Subsequently, the environment ministry had changed the name of the Genetic Engineering Approval Committee to Genetic Engineering Appraisal Committee following the imposition of the moratorium on Bt brinjal. His stance against GM crops was followed by his successor Jayanthi Natarajan.
Journey so far
2010 (Feb): Environment Minister Jairam Ramesh bans Bt brinjal cultivation
2011 (July): His successor Jayanthi Natarajan continues with the ban
2012 (Aug): Agriculture Standing Committee wants ban on GM crop field trials
2013 (Mar): GEAC approves field trials of 50 crops which Nataranjan does not OK
2013 (Dec): M Veerapa Moily takes charge of environment ministry
2014 (Mar–May ): Clears 45 trials but none start as state governments don’t OK them
2014 (July): 15 more applications for field trials approved by GEAC. Decision put on hold by environment minister Prakash Javadekar. 70 more applications for field trials are still pending
Most of the applications for GM trials belong to crops such as rice, wheat, brinjal, peas, potato, okra, rice, watermelon, maize, groundnut, papaya, mustard and sorghum
The Centre has done well to clarify that a final decision on allowing field trials of genetically modified crops will be taken only after a due consultative process. Fears about an imminent approval had arisen in view of the Genetic Engineering Appraisal Committee giving a green signal to the field trials of 15 GM crops. The ruling party had given an assurance in its election manifesto that such trials would not be allowed without taking the stakeholders into confidence. The time has, in fact, come for the government to make a categorical declaration that GM crops would not be allowed in India. This will settle the issue once and for all. There are many reasons to do so.
If field trials are allowed, it will benefit only some multinational companies, whose only motive is profit. Recently, an organisation of environmental scientists in the US has appealed to the doctors to advise their patients that they should not eat GM crops, as they are found to cause many ailments. The greatest argument in favour of GM crops was that it would increase productivity but studies have shown that such claims are fictitious. In fact, conventional and traditional crops can give better yields if scientific methods of cultivation are followed. The herbicidal properties of the crops have been found to be exaggerated. They also cause many side-effects.
In spite of all this, companies like Monsanto have succeeded in influencing public opinion to the point that many people now believe that the solution to the feeding of the ever-growing population is promoting GM crops. Little do they know that once GM crops are allowed, Indian farmers will remain perpetually dependent on the multinationals for seeds. Not only that, those multinationals will be able to control Indian agriculture. It will be like surrendering sovereignty. They are good at producing scientific papers that show GM crops in a good light. In the past such studies had shown that use of tobacco was good for health! It is time the government called their bluff and consigned GM crops to the wastebasket.
Brazilian farmers are asking Monsanto and other producers of pest-resistant corn seeds to reimburse them for money spent on additional pesticides when the bugs killed the crops instead of dying themselves.
The so-called BT corn seeds are genetically modified to produce an insecticide that will kill the corn leafworm (also known as the southern grassworm). After the insect eats the corn, the toxin inside paralyzes the insect’s digestive system, forming a hole in the gut wall. This forces the bug to stop eating within a few hours, and subsequently starve to death, according to a Colorado State University fact sheet. The GMO seeds are produced by four major manufacturers: Dow Agrosciences, DuPont, Monsanto and Sygenta AG.
In Brazil, however, the farmers say that the seeds did not deliver as promised.
"The caterpillars should die if they eat the corn, but since they didn't die this year producers had to spend on average 120 reais ($54) per hectare ... at a time that corn prices are terrible," Ricardo Tomczyk, president of Aprosoja farm lobby in Mato Grosso state, said in a statement.
The farmers, who are represented by Association of Soybean and Corn Producers of the Mato Grosso region (Aprosoja-MT) in their battle against the agricultural giants, had to spray up to three coats of additional pesticides after the scourge remained.
But Monsanto and the other seed companies are blaming the farmers, saying they warned them to plant the GMO seeds alongside conventional seeds to prevent bugs from mutating and developing resistance to the toxic Bacillus thuringiensis (Bt) protein that makes the pesticide effective.
The same mutation and resistance occurred in the US, beginning in 2009. Researchers, led by Aaron Gassmann, an entomologist at Iowa State University, found that GMO corn ‒ specifically two of the three types of Bt corn ‒ is no longer as efficient at killing the bugs. The resistance arose quickly, due to some extent, to farmers avoiding the simple, but profit-cutting precaution of crop rotation. The scientists published their paper online in the Proceedings of the National Academy of Sciences in March.
Large-scale farming in the bug-ridden tropics has always been a challenge, Reuters reported. In Brazil, the dependence on the GMO seeds have left the agricultural industry vulnerable to pest outbreaks and increasingly reliant on the use of toxic chemicals to battle them. Tomczyk, speaking on behalf of the farmers, said that farming with conventional seeds is not a viable option for those Aprosoja-MT represents.
"There are barely any non-GMO seeds available ... it is very uncomfortable that the companies are blaming the farmers," Tomczyk said. It doesn’t help that the four agro companies didn’t give clear instructions to the farmers, he added. Aprosoja hopes to reach a negotiated agreement with the seed companies, but if all else fails farmers may sue to get reparations for pesticide costs, according to Tomczyk.
“Monsanto, et al are unlikely to accommodate the farmers,” according to an article by CommonDreams.org. Instead, their response is likely to be further seed modifications and increased use of pesticides that these companies also produce, regardless of environmental or financial impact..
“Industry tries to tackle this issue by commercialization of so called ‘stacked events’ that produce several different Bt toxins,”GM Watch wrote. “The best known example is Monsanto's SmartStax maize that produces six different Bt toxins.”
Previously, 5 million Brazilian soybean farmers sued US-based Monsanto, claiming the genetic-engineering company was collecting royalties on crops it unfairly claims as its own. In 2012, the Brazilian court ruled in favor of the Brazilian farmers, saying Monsanto owes them at least US $2 billion paid since 2004. The biotech giant promised to appeal, and reached an agreement with the farmers last August to end the litigation, Reuters reported at the time.
In exchange for dropping the suit, Monsanto agreed to lower the price on a new type of genetically modified soybean ‒ not the older RR1 version the case was based on ‒ that the farmers were encouraged to purchase and plant in eight percent of Brazilian fields. Aprosoja represented the plaintiffs in that case as well.
But in October, a judge in that country blocked Monsanto’s attempt to make farmers sign restrictive agreements before being able to purchase the new RR2 Intacta soybean seeds. In December, the soybean farmers again sued the GMO company for about US $1 billion for illegally collecting royalties on the old RR1 seeds and forcing the Brazilians to sign “abusive” purchase contracts for the new ones, according to Sustainable Pulse.
Brazil is harvesting its second of two annual corn crops and expects to produce 78 million tonnes this crop year, slightly less than last season's record. Domestic prices recently fell to their lowest in four years because of abundant supplies, Reuters reported.
If you don’t know my story already, let me share it with you in brief:
We bought a farm, worked it hard, tried to do the full-time-farming thing. We poured so much into our farm–time, energy, money, debt. We had good products, great customers, and yet, we didn’t make it. The farm didn’t pay for itself. My husband had to go back to work, and we decided that we were unable to continue farming and maintain my husband’s career, the commute, the debt, and a healthy family life.
We sold eggs for $6.50 per dozen and though we sold out, we didn’t make enough to cover our expenses. I have people telling me on my Facebook page that even $5 per dozen for eggs is too expensive and unrealistic.
We sold raw milk for $10 per gallon and didn’t make enough to cover our expenses. So many people complain about this cost, too, as if it is an outrageous price. The most recent negative comment I got about this was: “And we wonder why people go for the industrial milk…”
We sold whole chickens for $5.50 per pound and had such a hard time selling our chickens (which barely brought in any profit anyways) at the farmer’s market.
We also sold beef, pork, duck, goose, as well as some fresh produce, homemade spice mixes, homemade candles, and a variety of organic grocery items in our farm store. It took so much time to manage all of the details of our farm–and yet people told me over and over that to make enough income, we would need to “diversify” more. Diversify more? We were busy with so much to manage already!
I get so many comments from people who truly expect farm-fresh food to be as cheap as grocery-store, subsidized food or maybe even cheaper. I get comments like this:
“Maybe people should wake up to the fact this isn’t a good business venture… It is simply a way to provide for your family and a few others. It’s when people try to turn this into a business that the costs sky rocket.”
The Truth is: Farming isn’t a good business venture, but it should be. Why shouldn’t people make money farming? People who build furniture make money, right? People who design computers make money, right? Why shouldn’t the people who grow our food make money?
“If you are running a farm the milk cow is only a portion of it…….even stores and other businesses take losses on one product or service while marking up others that can handle the higher profit margin and it all evens out as a whole.”
The Truth is: I get people telling me that every product on the farm ought to be a “loss leader”–milk, eggs, chicken, etc. I am not sure how these people expect the farmer to make any income or even cover the cost of feed, if every product loses money for the farmer. There is not one single food product that “can handle the higher profit margin” because grocery store food prices are SO distorted because of government subsidies. Most people have no clue how much food production actually costs.
“ppl will continue with store bought eggs due to the greediness of the up and coming farmer. Farming is about getting in tune with nature, soil, water and plant life, and sharing the spoils to keep ppl from starving. You want ppl to help support your greedy, selfish lifestyle.”
The Truth is: Farmers who are trying to simply make a living off of farming are not “greedy.” Farmers should not be expected to be self-sacrificing people who simply do their job because they love nature. What if every job out there was treated this way? Doctors ought to share their time and skill set to keep people from being ill. Clothing manufacturers should give away clothes to keep people from being naked. Authors and publishers should give away books so that nobody ever has to go without a good book to read. It’s ridiculous, right? There are true costs in every industry. And the laborer deserves a fair wage. Farmers work hard. They aren’t greedy or selfish when they charge realistic prices for their goods, after assessing the true costs and factoring in their time and labor.
“Most farmers never got rich farming. In hard times farmers had no cash, but they had food. So while the rest of us are being forced to pay exorbitant prices for grass fed beef, pastured eggs and gmo/soy you have all that on your farm, you are truly blessed.”
The Truth is: Farmers don’t get rich off of farming, but they should be able to survive, pay the bills, make enough to pay for their time, and keep on farming for years to come. Farmers don’t get food off of their farm for free, and the money it costs to raise this food doesn’t magically appear somehow. When we were farming, we would pay $1,000-$2,000 per delivery of feed–and we were needing to order that much feed at least every 2 weeks. That’s $2,000-$4,000 per month, and farmers can’t just come up with that money. In hard times, they still have to make enough income to raise the food to have the food.
“Maybe get a day job along w your laying hens, like the rest of us, instead of over charging for eggs.”
The Truth is: Most farmers DO have day jobs, which is really sad. This person was claiming that $5 per dozen for organic eggs was “over charging for eggs.” $5 per dozen is not bringing in much income for the farmer at all.
Someone who was saying eggs should not cost more than $3 per dozen: “…my husband makes very little over the cost of raising these chickens, MUCH less than minimum wage, but he does it because we feel it’s important to raise and grow good healthy food using methods that improve, rather than deplete our soil and environment.”
The Truth is: I’m glad that these people have a good reason for wanting to raise chickens well….but does that make it OK that, as she’s admitting, her husband makes “MUCH less than minimum wage” for this job? Can we all agree that raising chickens for eggs is a JOB that is worthy of a fair wage for the time and labor put into it?
I want to share these statistics, for all of the people out there who truly believe that farmers are rich or greedy. Notice that the “Median Farm Income” is Negative. People, this is not ok. Farmers have to get a “day job” to support their hobby of growing your food.
The prediction for 2014 doesn’t look any better:
And notice this next chart. The document states: “Farm income contributes little to the annual income of farm households operating residence farms, is a secondary source of income for households with intermediate farms, and is a primary source of income for those with commercial farms.”
So only 31% of small family farms make any profit at all—-and that profit makes up only 7% of their annual income.
The document also states: “Median farm household income increased each year from 2008 to 2012. The increase largely reflects greater income from off-farm sources, where most farm households earn all of their income.“
Can we all agree, this is just wrong? That farmers, who produce the food that nourishes us, should be able to make a living at what they do? That they shouldn’t have to work 40 hours per week at a day job, and then go home, exhausted, and raise livestock and work in the garden? That no human being should have to sacrifice every bit of their time so that the rest of the humans can work, rest in the evenings and eat???
If you would like to read more, visit the USDA website here.
Farmers are not rich. Farmers work hard, and more often than not, are giving their food away. It’s not ok. They have to pay the mortgage, the electricity, the feed bill, the cost of animals and seeds, and they deserve to make an income for their labor. Please stand with me in making a difference. Read about How to Bless a Farmer here. Tip your farmer. Pay fair prices for their food items. Do not expect that eggs, milk, meat or vegetables will cost the same as artificially priced grocery store foods.
Let’s work together to make farming an viable career!!
WASHINGTON: Organic foods and crops have a suite of advantages over their conventional counterparts, including more antioxidants, fewer, less frequent pesticide residues, and properties that may help prevent cancer, a study suggests.
Without the synthetic chemical pesticides applied on conventional crops, organic plants tend to produce more phenols and polyphenols to defend against pest attacks and related injuries, the findings showed.
In people, phenols and polyphenols can help prevent diseases triggered or promoted by oxidative-damage like coronary heart disease, stroke and certain cancers.
Overall, organic crops had 18 to 69 percent higher concentrations of antioxidant compounds, the study said.
"This study is telling a powerful story of how organic plant-based foods are nutritionally superior and deliver bona fide health benefits," said co-author of the study Charles Benbrook, a researcher at Washington State University in the US.
The team found that organic crops have several nutritional benefits that stem from the way the crops are produced.
A plant on a conventionally managed field will typically have access to high levels of synthetic nitrogen, and will marshal the extra resources into producing sugars and starches.
As a result, the harvested portion of the plant will often contain lower concentrations of other nutrients, including health-promoting antioxidants.
The study looked at an unprecedented 343 peer-reviewed publications comparing the nutritional quality and safety of organic and conventional plant-based foods, including fruits, vegetables, and grains.
The researchers applied sophisticated meta-analysis techniques to quantify differences between organic and non-organic foods.
Pesticide residues were three to four times more likely in conventional foods than organic ones, as organic farmers are not allowed to apply toxic, synthetic pesticides.
Consumers who switch to organic fruit, vegetables, and cereals would get 20 to 40 percent more antioxidants, the researchers concluded.
The study appeared in the British Journal of Nutrition.
This is Part 1 of a series titled The Living Wealth of India (now Dying), by the author(the series will be featured on this website)
Our lonely living planet – sole of its kind known – is on the cusp of a critical transition. An era of relentless exploitation of non-renewable fossil resources, must soon yield to an age of regenerating our living biological wealth; and a culture of nurture.
There are an estimated 80,000 edible plant species on earth, says the ‘Gaia Atlas of Planet Management’ (Ed. Norman Myers, Pan Books, 1985), not counting the many edible varieties of each species. Most of these are uncultivated foods – free, nourishing gifts of Nature, growing wild, requiring no human labour, except in harvesting or gathering.
Less than 150 plant species have been historically cultivated on a large scale as food crops. But with the spread of extensive industrial monocultures – grown with toxic chemicals for distant urban markets – barely 20 plant species now provide 90% of the entire human diet; and just 8 crops (of a very few varieties) provide three quarters of all human food! That is a miniscule 0.01% (or one in ten thousand) of the edible species gifted by Nature. So under all the glitter and packaging of ‘multi-brand’ mega-consumerism, are we really progressing or getting impoverished?
In February 2014, I was fortunate to attend a vibrant Tribal Food Festival at Bissam Cuttack in the Niyamgiri foothills of Odisha. Over 600 adivasis, about 80% women, gathered from over 200 tribal villages of different states in eastern and central India – to celebrate the rich diversity of their traditional foods. More than 1500 food varieties – cultivated and uncultivated, raw and cooked – were on display; over 900 were uncultivated forest foods! Included too were 400 ready-to-eat recipes for sampling.
Almost two decades earlier, about two dozen of us pooled resources to buy undulating land, now known as Vanvadi, in the foothills of the Sahyadris in the north Konkan Western Ghats; our primary aim – ecological regeneration and local self-reliance. Over the years, the land regenerated into a magnificent forest: tall, dense, and rich in biodiversity. A survey (incomplete) of the botanical wealth of Vanvadi, based on local tribal knowledge, surprised us with 52 plant species of uncultivated forest foods that provide edible yield (leaf, fruit, flower, stem, tuber/root), usually at a certain time of the year. The peak availability in our region is in early monsoon, when the agricultural produce of the past year has been largely consumed; and the farming population needs nourishment for the hard work of the new planting season.
Of the edible species listed at Vanvadi, we identified the botanical names of about 30 plants, and verified their use as food from ‘The Wealth of India’ and ‘Food from Forests’. The former – a multi-volume encyclopaedia of India’s biological wealth, published by the National Institute of Science Communication and Information Resources, CSIR – is a treasure-trove of information on the myriad useful plant species of India. The latter – published by the Indian Council of Forestry Research and Education (ICFRE), 590 pages – provides an account of almost 600 uncultivated food yielding species from various forested regions of India; and there are many more.
Yet another very valuable resource is, ‘A Dictionary of the Economic Products of India’, by Sir George Watt, first published by Oxford University in 1889-90 (10 volumes), and digitized in 2006. For more condensed data – drawn from ‘The Wealth of India’ – ‘The Useful Plants of India’ (918 pages), published by the ‘Publications and Information Directorate’ of the Council of Scientific and Industrial Research (CSIR), provides summary information on over 5,000 useful plant species, including their local names in various vernacular languages for easy cross-identification.
It is a tragedy that our GDP-driven economic civilization pays scant attention to the rich diversity of organic, nutritious foods, that our natural forests provide free in a most ecologically efficient manner -- without any external input whatsoever of energy, water or fertility! Indeed, the forests are by far the most efficient agents of harvesting solar energy, sequestering carbon, ameliorating climate change, conserving and regenerating our soils and their fertility, fostering biodiversity, and recharging groundwater, besides providing a huge variety of useful produce.
Debjeet Sarangi of Living Farms – that helped organize the Tribal Food Festival in Odisha – states: “Uncultivated foods provide a critical supplement to the diets of the local native communities. Often, in bio-diverse natural forests, there is year-long supply of several hundred varieties of foods, ensuring diversity and nutritional balance in the local diets. While the gathering and consumption of uncultivated foods varies across regions, communities, seasons, a recent study by Living Farms revealed that there was not a single household in its sample study (of the adivasis of Niyamgiri hills and forests) which reported that it does not collect or consume uncultivated foods like wild tubers, greens, mushrooms, fruits, etc. A wealth of living knowledge yet exists in our indigenous communities regarding their forest bio-resources.”
An adivasi of the Pahari Korba tribe declared, “We Pahari Korba have always enjoyed a long and healthy life for generations, without any major ailments or diseases. For every minor disease, symptom or discomfort we depended on forest herbs, plants, vegetables, to get well, and we never visited a drug store, hospital, or took any injections.”
Other adivasi tribals at the Festival related how their uncultivated forest foods have been dependable sources of nutrition even in the most critical times of drought and agricultural failure, caused by increasingly erratic or scant rainfall.
But in many places, communities are now reporting a decline in the availability and consumption of uncultivated foods, due to a variety of external factors. Deforestation, displacement, urbanization, big dams, industrial mining, mega-plants, the spread of cash-crops and monocultures – all constitute a relentless assault on the biological and socio-cultural habitats of our enormously rich diversity of uncultivated foods, evolved over millennia.
Ragunathan Chakravarthy, who shot a 45 minute documentary film – supplemented by a textual report – on the Tribal Food Festival, informs that over 150 million adivasis live in the central India forests and the Eastern Ghats, many parts of which are now gravely threatened by ‘modern economic development’. The Niyamgiri hills and forests alone are home to numerous tribal communities like the Kondh, Koya, Didai, Santhal, Juanga, Baiga, Bhil, Pahari Korba, Paudi Bhuiyan and Birhor.
Ragunathan narrates the poignant lament of a tribal woman participating in the Festival. “Now we see our own children, educated the modern way, getting culturally alienated from us. This younger generation knows little about our rich heritage and traditional, season based food practices. It is a massive crisis; a crisis that is not of our making. I fear our whole life, livelihood and culture may be lost forever if we do not start educating our children and future generations to conserve nature, live harmoniously with the seasons, and revive our traditional bio-diverse nutritional security.”
Devinder Sharma, a food and agricultural policy analyst states, “Modern living has snapped the symbiotic relationship that existed with nature. Not many know that India is a mega-diversity region with over 51,000 plant species existing, but with hardly a handful being cultivated.”
At Vanvadi, a primary listing yielded over 120 forest species known to have various traditional uses. Apart from food yielding species, we discovered we had more than 45 plant species of known medicinal use; and at least 20 timber species, including four rated as ‘first grade timbers’. And then there are plants that yield natural dyes, soaps, edible oils, bio-fuels, gums and resins, botanical pesticides, leaf plates, etc., apart from fodder, fuel, fibre, manure, hedge protection, craft material, etc.
Many species have multiple uses. For example, the leaves of the mahua tree provide fodder. The flowers are used to make jaggery, liquor or porridge. The fruits can be cooked and consumed as a vegetable. The seed is crushed to yield a cooking oil, far more wholesome than any brand available in the market; and the residual cake after extracting the oil is a valuable manure for farm crops. When the Mahua tree dies, its wood is used for making carriages, furniture, sports goods, musical instruments, agricultural implements, and for house and ship building.
The rich natural inheritance of our forested regions sustained our adivasi communities for generations beyond count. Today, if there are any people left on this earth who can teach our floundering ‘millennium generation’ the fine art and science of co-existing in harmony with the forest, it is these tribals. Or rather, just those among them now, who still retain the knowledge, the skills, and the native cultural perspective.
Photo credits: Vanvadi photos by Neesha Noronha,
others (all taken at Bissam Cuttack) by Ragunathan Chakravarthy and Living Farms
Ron Finley grows food and for this he has been branded as a guerilla gardener, a renegede, an ecolutionist. It all began four years ago, when Ron, a fashion designer, planted a vegetable garden in the open space outside his home in South Central Los Angeles in the US. It was illegal because the city council owned the open spaces. Ron got cited for gardening without a permit, but joined hands with other like-minded people and continued. At long last, the city council has changed its rules, allowing people to grow food in open spaces. Edited excerpts from an e-mail interview with Down To Earth:
Ron FinleyWhat inspired you to take up guerilla gardening?
The US had a strong tradition of community gardens during World War II. It got lost with the advent of modern agriculture. In the community I live in, there is no space for gardens. Well, there is space, but it is owned by the city authority. There is no access to food that has not been sprayed or injected with chemicals, so I decided to grow my own food.
Do you think children fall sick due to lack of fresh food?
Children are suffering from heart diseases, diabetes, obesity, asthma, attention deficit disorder and depression. You do not have to be a scientist to understand that a lot of these diseases are caused by food.
With innovative use of space, people in cities are reclaiming their right to safe food
How did you popularise the concept?
In the past four years, I have founded a group with like-minded people who want to eat healthy food and share it with their neighbours. The group, LA Green Grounds, creates gardens in low-income areas. Recently, I gave a talk on gardening at TED (Technology, Entertainment, Design) conference, following which 300 volunteers have joined the group.
How have your eating habits changed?
As a child I ate what I was fed—packaged meal and canned corn. Then I educated myself about healthy food in my early 20s. Now I grow mustard greens, kale, arugula, spinach, mint, rosemary, onions, carrots, corn, eggplants, hot peppers. I also grow apples, almonds, tangerines, oranges and bananas, which are shared with neighbours in the street. I make juices and salads and eat corn off the stalk.
Do people see food differently now?
Yes. People are willing to spend on quality food, but they have to drive 45 minutes to just get a fresh tomato. The cost of organic food is prohibitive. So you need to grow your own food. It's like printing your own money.
With innovative use of space, people in cities are reclaiming their right to safe food
A micro-garden on PVC pipes in a Mumbai house (Source: Vani Murthy)Sky is the limit for those who want to grow their own food, both literally and metaphorically. An increasing number of households in land-crunched cities are transforming the much-neglected terraces and rooftops, which were once best used for storing junk, into havens of beauty, greenery and food. In fact, they are innovating ways to use every inch of this space for reclaiming their right to safe, organic food; creative occupation; and pleasant surroundings.
Though there is no estimate for how many people are engaged in such activities, a Facebook group, Organic Terrace Gardening, has 19,000 members from across the country. Be it metropolises like Delhi, Mumbai, Hyderabad and Chennai or small cities like Nashik and Nagpur, people are forming gardening groups to learn from each other. The movement has caught on well in Bengaluru, which has an estimated 7,000 terrace or rooftop gardens. Everyone has a different reason for taking to terrace gardening. In Bengaluru, homemaker and composting enthusiast Vani Murthy found more compost on hand than she could give away, and she filled her terrace with planting pots.
Hariram P S, an Information Technology professional, created a garden as part of his effort to help his two sons reconnect with nature. “We work together, making a greenhouse, taking care of plants and watching them grow. It has also brought us closer,” Hariram says. Preeti Patil, caterer with the Port Trust of India in Mumbai, started growing fruit trees on her 3,000 sq ft terrace while trying to deal with her kitchen waste. Now she has a whopping 150 fruit trees—all yielding.
But space is not a constraint for those who do not have access to such sprawling terraces or rooftops. Plant enthusiasts are creating mini-gardens even on their windowsills. After all, innovative use of space is the rule of the game. Christopher Pereira of Mumbai has designed a two-storey vertical garden using pvc pipes. He has also designed a pvc pipe micro-garden that can be hung horizontally from window-grills and used to grow greens like fenugreek, spinach and amaranths, herbs like wheat-grass and mint or even the exotic rosemary and thyme.
Soil is another important area of innovation. Says B N Vishwanath, “Conventionally, a mixture of 50 per cent soil, 20 per cent sand and 30 per cent compost is considered the ideal potting medium. But weight matters when one grows food in balconies and terraces. So we have developed a light-weight medium that comprises 25 per cent each of soil, coco-peat, compost and vermicompost.” Vishwanath, a former professor of entomology in Bengaluru, is known as the father of urban gardening in India. In Mumbai, Preeti Patil’s urban gardening group, Urban Leaves, has also developed a light-weight soil mixture. Called Amrut Mitti, it has more mulch and less soil. Both the potting media are more fertile than the conventional mix.
With a suitable pot, healthy soil and creativity, gardeners are growing everything, from leafy greens, brinjals, chillies and tomatoes to exotic vegetables like zucchini, strawberries and passion-fruit. Vines like pumpkin and muskmelon and fruit trees are the favourites among those who have rooftop gardens. Some grow grains or pulses. One such gardener is Shrikrishna Herlekar of Nashik, who has harvested 200 kg of wheat from his 625 sq ft rooftop farm this year.
Depending on the size of the garden and maintenance, harvest ranges from a few tomatoes or chillies to a kilo of vegetables a day. Facebook comments by the members of Organic Terrace Gardening show that the simple act of growing food has changed the practices and perceptions around food. Some people have stopped buying vegetables from market, while others have revived the culture of sharing the produce with neighbours. “These days I encourage my children to eat raw vegetables because I know they are organic and safe,” says Hariram. “Earlier, my children ate only dosa-sambhar or dal-chapati,” says Rakhee Chaudhary, a homemaker in Delhi. “Now that they see me toiling in the garden, they have taken to eating vegetables.”
People are also waking up to the benefits of eating farm fresh and chemical-free food. Chaudhary claims to have been cured of her thyroid problem and allergies after she started growing her own food over a year ago. “It is either because of good food or outdoor activities, or probably both,” she says. For Hariram, gardening is a good form of exercise. “It involves moving heavy pots, planting, watering and preparing compost, which are strenuous work. I have lost a few kilos without even trying,” he says. Padma Kesari, a homemaker in Bengaluru, says her haemoglobin count has increased by two points since she started consuming home-grown greens regularly. “I am now more inclined to eat greens. They taste so good.”
The act of growing also makes people appreciative of the hard work put in by farmers. Hyderabad-based gardener Madhu Reddy says last summer she struggled to protect her vegetables from heat. Now she is more inclined to pay the price demanded by farmers.
But above all, gardening improves one’s mental and emotional wellbeing. “In Bengaluru, several IT professionals have taken up gardening,” says Seetha Ananthasivan, director of Bhoomi College that provides education in sustainable living. “People need some contact with nature to make life worth living,” she adds. Gardeners agree. “There is a sense of joy and freshness about gardening,” says Murthy. “More than the vegetables, it is the joy in nurturing that keeps me going.”
In 2011-12, the then Finance Minister, Pranab Mukherjee, sanctioned Rs 300 crore for promoting urban gardening. So far, only Kerala has used its share of Rs 12 crore to initiate a rooftop gardening mission in Thiruvananthapuram and provided growing bags, seeds and gardening tools to about 15,000 households. Recently, the Karnataka government has also taken a decision to promote urban gardening in six districts of the backward Gulbarga division. But other states are yet to take an initiative.
It is time the governments realised the potential of terrace gardens, which are not only salubrious for city dwellers but can also tame the double-digit food inflation.
Photographs: Aparna PallaviCITY FARMERS
Access to safe food and joy of nurturing are the key drivers
B N Vishwanath Bengaluru As an entomologist, Vishwanath taught students to use poisons to kill insects. He underwent a crisis of faith after reading Rachel Carson's classic Silent Spring, and started popularising terrace gardening in 1995.
VCourtesy: Vani Murthyani Murthy Bengaluru
Vani grows 60 types of vegetables, spices and herbs, and also holds composting and gardening workshops. She was recently featured in Amir Khan's TV show Satyameva Jayate for her work in garbage segregation.
Courtesy: Preeti PatilPreeti Patil Mumbai
Preeti has a whopping 150 fruit trees, including banana, papaya, cheeku, mango and coconut, on her 3,000 square feet terrace. She trains Mumbaikars in the art of soil culture, growing food and cooking healthy meals.
Padma Kesari Bengaluru
Padma gave up the idea of building a swanky house on her upmarket 5,600 sq ft plot and turned it into a garden where she grows 28 varieties of fruits, 15 vegetables and herbs. She supplies brinjals to Rasa organic restaurant.
Imagine if someone invented machines to suck carbon out of the atmosphere — machines that were absurdly cheap, autonomous, and solar powered, too. Wouldn’t that be great? But we already have these gadgets! They’re called plants.
The problem is, plants die. So there’s one hurdle remaining: We have to figure out how to lock away the carbon in dead plants so that it doesn’t just return to the atmosphere. The obvious place to put that carbon is into the ground. And so, for years, scientists and governments have been urging farmers to leave their crop residue — the stalks and leaves — on the ground, so it would be incorporated into the soil. The trouble is, sometimes this doesn’t work: Farmers will leave residues on a field and they won’t turn into carbon-rich soil — they’ll just sit there. Sometimes, the whole process ends up releasing more greenhouse gasses than it locks away.
This has left people scratching their heads. But now a simple idea is spreading that could allow farmers to begin reliably pulling carbon out of the atmosphere and into their soil.
Clive Kirkby was one of those government agents urging farmers to leave dead plant residues in their fields. He was working in New South Wales, Australia, where farmers traditionally have burnt off their wheat stubble after harvest. Kirkby implored farmers to stop. Instead of torching all that plant residue and releasing the carbon into the air, he told them, let it stay on the ground. It seemed like a win-win: The carbon was harmful in the air, where it contributed to the greenhouse effect, and beneficial in the ground, where it made the soil rich.
As he was proselytizing, Kirkby began to bump heads with an agronomist namedJohn Kirkegaard. “Look, Clive,” Kirkegaard would say, “the best treatment here is burn and cultivate — that’s the one that’s growing the best crops.”
This made Kirkby crazy. Burning was bad enough, and cultivation, which essentially means plowing, was also exactly the opposite of what he wanted. When farmers break up the soil with cultivation it releases some of the carbon stored there, according to conventional wisdom. But Kirkby had to admit that Kirkegaard had data on his side. The agronomist would show him the numbers, and it was clear that the soil organic matter (which holds the carbon) wasn’t increasing. In some cases, it was decreasing.
“I’ve been returning the stubble to the ground now for six years, and it’s just not going into the soil,” Kirkegaard told him.
The way that soil locks up greenhouse gas has been frustratingly mysterious, but the basics are clear: After plants suck up the carbon, the critters (microbes and fungi and insects) swarming in the topsoil chew up plant molecules, subjecting them to one chemical reaction after another as they pass through a fantastically complex food web. If everything goes right, the end result is microscopic bricks of stable carbon, which form the foundation of rich black soil.
Kirkby knew that there must be some mysterious quirk of this topsoil ecosystem that was thwarting him. But how do you investigate a complex, microscopic community that lives underground? There are just so many different organisms eating each other, and cooperating, and parasitizing one another, that we have no clue what’s going on there. People are studying it — but mostly they are reporting that the soil microbiome, as it’s called, is far more confusing than anyone suspected.
Kirkby, however, came up with an idea, that in theory, might allow farmers to manipulate the soil microbiome without having to understand everything that was going on in that black box. He pursued this idea for years, and though he was already nearing retirement age, went back to school and earned a PhD as he assembled evidence. If he’d simply tried to win his original confrontation with Kirkegaard, they’d have remained locked in a stalemate. Instead, because they allowed their minds to be shifted by the evidence, that adversarial relationship was tremendously productive. Kirkby came full circle when Kirkegaard took him on as a post-doctoral fellow (at the age of 66, Kirkby had to be one of the oldest postdocs ever).
The idea that drove Kirkby was elegant in its simplicity. “The way you get carbon into the ground,” he said, “is to take plant residue and turn it into microorganisms.” To grow microorganisms you have to feed them.
They will eat corn stalks and wheat straw, but that, alone, is not a balanced diet. That’s like giving people nothing to eat but a mountain of sugar. There are certain elements that all creatures on earth need to build the bodies of the next generation: carbon, nitrogen, phosphorus, sulfur, oxygen, and hydrogen. These six elements are the basic ingredients of living organisms. By leaving stalks and stems on the fields they were providing a lot of carbon, and oxygen and hydrogen comes easily from the air, but the bugs were lacking in nitrogen, sulfur, and phosphorus. Provide enough of these missing building blocks, Kirkby figured, and the soil microbes would finally be able to consume the plant residue. He tried it. It worked.
One lab test provides a dramatic visual of how this works. The scientists added wheat straw to two pans of sandy soil, and fertilized one with nutrients. That pan looks like rich compost. The untreated control looks as lifeless as the surface of Mars.
I saw this picture recently when I met, via Skype, with Kirkby, Kirkegaard, and another collaborator named Alan Richardson. All work at the Australian government’s Commonwealth Scientific and Industrial Research Organisation. They crowded together in front of the computer in Kirkegaard’s Canberra office.
“That’s moist soil with chopped up wheat straw on the left,” Kirkegaard said. “There’s no reason why that shouldn’t have decomposed, except for the fact that nutrients are missing. When you give them the nutrients, all the wheat straw is gone, and you get the results of the microbial activity and their bodies and it creates a whole lot of…”
“Humus!” cried Kirkby. He spoke with enthusiastic, rapid-fire intensity, his accent pinching the vowels through the nose: “With the right balance of nutrients you get a population explosion. And that’s what you want. The carbon is in the soil’s organic matter, and that’s essentially dead bug bits. And live bugs. Humus!”
Richardson, who stood leaning against the far wall, chimed in, gruff and sedate compared to Kirkby. “Historically we’ve fertilized the crop,” he said. “We’ve been interested in the crop. The paradigm shift is in thinking that you have to fertilize the system, the microbes and all that. And through that you support the crop.”
Instead of simply trying to optimize for the plants, they’ve realized, you can optimize soil along with the plant — you can optimize the whole system.
The three men explained that, when they looked at soil organic matter from around the world, the proportions of nutrients — the ratio of carbon atoms to nitrogen, for instance — are stunningly consistent. The organic matter is microbes. And if you want to build more of it, you have to give the microbes the right ratios of nutrients to build more tiny, cellular bodies.
Instead of trying to identify every soil microbe and understand what it’s doing, they have hit upon a way of treating the whole mess like a super-organism that responds in predictable ways.
The scientist Richard Jefferson, who introduced me to this work, calls it breeding by feeding: We don’t actually know what these microbes are that we’re breeding; we only know that when we set out the right proportions of food, they click into high gear.
All this helps explain why organic farms often capture more carbon. In adding compost to amend the soil, organic farmers are adding the same ratios of nutrients. The organic claim that fertilizing with synthetic nitrogen kills off soil life actually makes sense, Kirkby said; it’s just that the problem has nothing to do with the nitrogen’s artificiality. The trouble is that farmers are applying the nitrogen without the other nutrients necessary to nurture the microbiome.
“As agronomists, we talk about nutrient-use efficiency,” Kirkegaard said. “Now, the best way to have high nutrient-use efficiency is to mine the organic matter, because that comes to you for free. You’re wanting to put on juuuust enough nutrients to feed the crop and not have any left over. And that just means the other crop, under the soil, the microbial crop, misses out. As a result, we’ve lost about half the organic matter in land we’ve been using for agriculture.”
This stopped me. If this is old news, why haven’t we been putting it to work? Why the confusion when no-till fails to capture carbon? Why the mystery surrounding the ability of organic farming to do so?
Sometimes good information simply doesn’t spread everywhere it should go, Lal said, with a note of weariness. This isn’t a exactly breakthrough, he said, but he welcomed the work and said he hoped people would pay attention this time. When he followed up with an email, he wrote: “The theme addressed is very important and it must be brought to the attention of general public and policy makers.”
Jefferson says the Australians are being modest, and conservative with their claims. Connecting the well-known nutrient ratios with the microbiome truly is a breakthrough, he said.
“Now they have a mechanism to explain how this works, which allows you to make predictions, so you can imagine experiments driving this forward. One of the things that’s exciting for me is that this really bridges empiricism and scholarly science nicely. There have been tens of thousands of anecdotes noted about the performance of small scale, traditional agriculture — empirical studies or stories of small farmers who do exciting things in terms of performance and resilience. It has been largely dismissed by the hard-core science community because it has not been scalable and replicable. We can’t take one farmer’s success and move it to the next farmer or the next ecosystem because we have no understanding of how it works — complex systems don’t extrapolate well, they don’t work out of context.”
In other words, when we see an organic farmer building up the soil and achieving amazing results, it’s hard to copy it because we don’t know what to imitate. What is it that makes this work? The type of fertilizer? The local microclimate? The prayer the farmer says before breakfast? The work coming out of Australia provides the traction to separate superstition from the stuff that gets results.
Both Lal and the Australian scientists agree that there’s still one more major hurdle, which may have kept this information from spreading: These nutrients cost money. If farmers were paid for locking up carbon, they would gladly buy the fertilizers, Lal said, but right now the reimbursements are far too low. Even at the high point of the carbon markets, when people were paying $30 per ton, it would not be enough to reimburse farmers. “It costs $800 a ton of CO2 to do geological sequestration, you know, pumping carbon underground,” he said. “If farmers could get even a tenth of that, $80 a ton, I know many soil-poor farmers would participate.”
Kirkby thinks that, by tinkering with the soil microbiome, farmers might see enough gains to pay for the extra inputs. There’s already evidence that the soil microbes can help suppress plant disease and improve dirt quality. Extending this concept of growing a healthy system, not just a healthy crop, could yield profits.
“We’re probably not going to increase yields incredibly, but we might be able to improve incrementally,” Kirkby said. “In a sandy soil we might improve water-holding capacity. In a heavy clay soil we might reduce diseases a little bit — added together it might pay for the nutrients at the end of the day.”
One thing is certain: If agriculture were able to switch from an emitter of carbon to an absorber of carbon, the effect would be huge. Plants, those cheap carbon-removal machines that nature has given us, work well. If we can get them to make our dinner while they are also sucking up greenhouse gas, what a coup that would be.
But it would be an even greater coup if we could begin, as these scientists have done, to understand how to manipulate whole ecological systems — rather than just systems that have been simplified and stripped down to easily controllable parts.
@AparnaPallavi1 
Padma gave up the idea of building a swanky house on her upmarket 5,600 sq ft plot and turned it into a garden where she grows 28 varieties of fruits, 15 vegetables and herbs. She supplies brinjals to Rasa organic restaurant.
