The 2015 annual report from the?International Service for the Acquisition of Agri-Biotech Applications (ISAAA) – the 20th anniversary of biotech crops being commercialized – is now available and there is a wealth of great information available – some below including their short highlight video, press release, and top ten facts – but much more is still available at www.isaaa.org.
ISAAA Brief 51-2015: प्रेस विज्ञप्ति
Biotech/GM Crops Planted on Two Billion Hectares from 1996 सेवा 2015
Farmers Reap >US$150 Billion from Advances in Biotech Crops over 20 वर्षों
Beijing (अप्रैल 13, 2016) ? आज, the International Service for the Acquisition of Agri-Biotech Applications (ISAAA) released its annual report detailing the adoption of biotech crops, ?20th Anniversary of the Global Commercialization of Biotech Crops (1996-2015) and Biotech Crop Highlights in 2015,? showcasing the global increase in biotech hectarage from 1.7 million hectares in 1996 सेवा 179.7 million hectares in 2015. This 100-fold increase in just 20 years makes biotechnology the fastest adopted crop technology in recent times, reflecting farmer satisfaction with biotech crops.
जबसे 1996, 2 billon hectares of arable land ? a massive area more than twice the landmass of China or the United States ? have been planted with biotech crops. इसके अतिरिक्त, it is estimated that farmers in up to 28 countries have reaped more than US$150 billion in benefits from biotech crops since 1996. This has helped alleviate poverty for up to 16.5 million small farmers and their families annually totaling about 65 लाख लोग, who are some of the poorest people in the world.
?More farmers are planting biotech crops in developing countries precisely because biotech crops are a rigorously-tested option for improving crop yields,? said Clive James, founder and emeritus chair of ISAAA, who has authored the ISAAA report for the past two decades. ?Despite claims from opponents that biotechnology only benefits farmers in industrialized countries, the continued adoption of the technology in developing countries disproves that? James added.
For the fourth consecutive year, developing countries planted more biotech crops (14.5 मिलियन हेक्टेयर) than industrialized countries. में 2015, Latin American, Asian and African farmers grew biotech crops on 54 percent of global biotech hectarage (97.1 million hectares of 179.7 million biotech hectares) and of the 28 countries that planted biotech crops, 20 were developing nations. Annually, तक 18 million farmers, 90 percent of whom were small, resource-poor growers in developing countries, benefited from planting biotech crops from 1996 सेवा 2015.
?China is just one example of biotechnology?s benefits for farmers in developing countries. के बीच 1997 तथा 2014, biotech cotton varieties brought an estimated $17.5 billion worth of benefits to Chinese cotton farmers, and they realized $1.3 अरब में 2014 अकेला,? explained ISAAA Global Coordinator, Randy Hautea.
Also in 2015, India became the leading cotton producer in the world with much of its growth attributed to biotech बीटी कपास. India is the largest biotech cotton country in the world with 11.6 million hectares planted in 2015 by 7.7 लाख छोटे किसानों. में 2014 तथा 2015, an impressive 95 percent of India?s cotton crop was planted with biotech seed; चीन?s adoption in 2015 था 96 प्रतिशत.
?किसान, who are traditionally risk-averse, recognize the value of biotech crops, which offer benefits to farmers and consumers alike, including drought tolerance, insect and disease resistance, herbicide tolerance, and increased nutrition and food quality,? Hautea added. ?अतिरिक्त, biotech crops contribute to more sustainable crop production systems that address concerns regarding climate change and global food security.?
Following a remarkable run of 19 years of consecutive growth from 1996 सेवा 2014, साथ में 12 years of double-digit growth, the global hectarage of biotech crops peaked at 181.5 million hectares in 2014, compared with 179.7 million hectares in 2015, equivalent to a net marginal decrease of 1 प्रतिशत. This change is principally due to an overall decrease in total crop hectarage, associated with low prices for commodity crops in 2015. ISAAA anticipates that total crop hectarage will increase when crop prices improve. उदाहरण के लिए, Canada has projected that canola hectarage in 2016 will revert to the higher level of 2014. Other factors affecting biotech hectarage in 2015 include the devastating drought in South Africa, which led to a massive 23 percent decrease of 700,000 hectares in intended plantings in 2015. The drought in eastern and southern Africa in 2015/2016 puts up to 15 सेवा 20 million poor people at risk for food insecurity and compels South Africa, usually a maize exporter, to rely on maize imports.
Additional highlights from ISAAA?रों 2015 report include:
- New biotech crops were approved and/or commercialized in several countries including the United States, ब्राज़िल, अर्जेंटीना, Canada and Myanmar.
- The United States saw a number of firsts including the commercialization of new products such as:
- Innate? Generation 1 आलू, with lower levels of acrylamide, a potential carcinogen, and resistance to bruising. InnateTM Generation 2, approved in 2015, also has late blight resistance. It is noteworthy that the potato is the fourth most important food crop in the world.
- Arctic? Apples that do not brown when sliced.
- The first non-transgenic genome-edited crop to be commercialized globally, SU Canola?, was planted in the United States.
- The first-time approval of a GM animal food product, GM salmon, for human consumption.
- Biotech crops with multiple traits, often called ?stacked traits,? were planted on 58.5 मिलियन हेक्टेयर, representing 33 percent of all biotech hectares planted and a 14 percent year-over-year increase.
- Vietnam planted a stacked-trait biotech बीटी and herbicide-tolerant maize as its first biotech crop.
- Biotech DroughtGard? मक्का, first planted in the United States in 2013, increased 15-fold from 50,000 hectares in 2013 सेवा 810,000 hectares reflecting high farmer acceptance.
- Sudan increased बीटी cotton hectarage by 30 प्रतिशत 120,000 हेक्टेयर, while various factors precluded a higher hectarage in Burkina Faso.
- Eight African countries field-tested, pro-poor, priority African crops, the penultimate step prior to approval.
Looking ahead to the future of biotechnology in agriculture, ISAAA has identified three key opportunities to realize continued growth in adoption of biotech crops, which are as follows:
- High rates of adoption (90 प्रतिशत 100 प्रतिशत) in current major biotech markets leave little room for expansion. तथापि, there is a significant potential in other ?new? countries for selected products, such as biotech maize, which has a potential of approximately 100 million more hectares globally, 60 million hectares in Asia, जिसमें से 35 million is in China alone, plus 35 million hectares in Africa.
- से ज्यादा 85 potential new products in the pipeline are now being field-tested; including a biotech drought tolerant maize from the WEMA project (डब्ल्यूater Efficient मaize for एfrica) expected to be released in Africa in 2017, Golden Rice in Asia, and fortified bananas and pest-resistant cowpea in Africa.
- CRISPR (सीlustered आरegularly मैंnterspersed Short पीalindromic आरepeats) a new powerful genome editing technology has significant comparative advantages over conventional and GM crops in four domains: precision, speed, cost and regulation. When combined with other advances in crop sciences, CRISPR could increase crop productivity in a ?sustainable intensification? mode on the 1.5 billion hectares of global arable land, and make a vital contribution to global food security.
For more information or the executive summary of the report, यात्रा www.isaaa.org.
ISAAA Brief 51-2015: TOP TEN FACTS about Biotech/GM Crops in their First 20 वर्षों, 1996 सेवा 2015
FACT # 1. 2015 marked the 20th year of the successful commercialization of biotech crops. An unprecedented cumulative hectarage of 2 billion hectares of biotech crops, equivalent to twice the total land mass of the US (937 मिलियन हेक्टेयर), were successfully cultivated globally in up to 28 countries annually, in the 20-year period 1996 सेवा 2015; farmer benefits for 1996 सेवा 2015 were conservatively estimated at over US$150 billion. Up to ~18 million risk-averse farmers benefitted annually, of whom, remarkably, 90% were small, resource-poor farmers in developing countries.
FACT # 2. Progress with adoption in the first 20 वर्षों. Following a remarkable run of 19 years of consecutive yearly growth from 1996 सेवा 2014, the annual global hectarage of biotech crops peaked at 181.5 दस लाख में 2014, compared with 179.7 million hectares in 2015, equivalent to a net marginal year-to-year decrease of 1.0% between 2014 तथा 2015. Some countries increased their total plantings, whilst others reduced their hectarage principally due to the current low prices of commodity crops; these hectarage decreases are likely to revert to higher hectarage levels when crop prices improve. The global hectarage of biotech crops increased 100-fold from 1.7 million hectares in 1996 सेवा 179.7 million hectares in 2015, making biotech crops the fastest adopted crop technology in recent times.
FACT # 3. For the 4th consecutive year, developing countries planted more biotech crops. में 2015, Latin American, Asian and African farmers collectively grew 97.1 million hectares or 54% of the global 179.7 million biotech hectares (versus 53% में 2014) compared with industrial countries at 82.6 million hectares or 46% (versus 47% में 2014); this trend is likely to continue. का 28 countries planting biotech crops in 2015, the majority, 20, were developing and 8 industrial.
FACT # 4. Stacked traits occupied ~33% of the global 179.7 मिलियन हेक्टेयर. Stacked traits are favored by farmers for all 3 major biotech crops. Stacked traits increased from 51.4 million hectares in 2014 सेवा 58.5 million hectares in 2015 ? an increase of 7.1 million hectares equivalent to a 14% increase. 14 countries planted stacked biotech crops with two or more traits in 2015, जिसमें से 11 were developing countries. Vietnam planted a stacked biotech Bt/HT maize as its first biotech crop in 2015.
FACT # 5. Selected highlights in developing countries in 2015. Latin America had the largest hectarage, led by Brazil, followed by Argentina. In Asia, Vietnam planted for the first time, and Bangladesh?रों political will advanced planting of Bt eggplant and identified Golden Rice, biotech potato and cotton as future biotech targets. The Philippines has grown biotech maize successfully for 13 वर्षों, and is appealing a recent Supreme Court decision on biotech crops, whilst Indonesia is close to approving a home-grown drought-tolerant sugarcane. China continues to benefit significantly from Bt cotton (US$18 billion for 1997 सेवा 2014), and notably ChemChina recently bid US$43 billion for Syngenta. में 2015, India became the #1 cotton producer in the world, to which Bt cotton made a significant contribution ? benefits for the period 2002 सेवा 2014 are estimated at US$18 billion. Africa progressed despite a devastating drought in South Africa resulting in a decrease in intended plantings of ~700,000 hectares in 2015 ? a massive 23% decrease. This underscores yet again the life-threatening importance of drought in Africa, where fortunately, the WEMA biotech drought-tolerant maize is on track for release in 2017. Sudan increased Bt cotton hectarage by 30% सेवा 120,000 hectares in 2015, whilst various factors precluded a higher hectarage in Burkina Faso. में 2015, importantly, 8 African countries field-tested, pro-poor, priority African crops, the penultimate step prior to approval.
FACT # 6. Major developments in the US in 2015. Progress on many fronts including: several ?firsts? in approvals and commercializations of ?new? GM crops, such as Innate? potatoes and Arctic? Apples;? commercialization of the first non-transgenic genome-edited crop, SU Canola?;? first time approval of a GM animal food product, GM salmon, for human consumption; and increasing R&D use of the powerful genome editing technology, named? CRISPR (सीlustered आरegularly मैंnterspersed Short पीalindromic आरepeats); high adoption of first biotech drought tolerant maize (see below). Dow and DuPont merged to form DowDuPont.
FACT # 7. High adoption of the first biotech drought-tolerant maize planted in the US. Biotech DroughtGard? मक्का, first planted in the US in 2013, increased 15-fold from 50,000 hectares in 2013 सेवा 810,000 hectares in 2015 reflecting high farmer acceptance. The same event has been donated to the public-private partnership WEMA (डब्ल्यूater Efficient मaize for एfrica), aimed at the timely delivery of a biotech drought tolerant maize to selected countries in Africa by 2017.
FACT # 8. Status of biotech crops in the EU. The same five EU countries continued to plant 116,870 बीटी मक्के की हेक्टेयर, नीचे 18% से 2014. Hectares decreased in all countries due to several factors including, less maize planted, disincentives for farmers with onerous reporting.
FACT # 9. Benefits offered by biotech crops. A global meta-analysis of 147 studies for the last 20 years reported that ?on average, GM technology adoption has reduced chemical pesticide use by 37%, increased crop yields by 22%, and increased farmer profits by 68%? (Qaim et al, 2014). These findings corroborate results from other annual global studies (Brookes et al, 2015). से 1996 सेवा 2014, biotech crops contributed to Food Security, Sustainability and the Environment/Climate Change by: increasing crop production valued at US$150 billion; providing a better environment, by saving 584 million kg a.i. of pesticides; में 2014 अकेला, reducing CO2 emissions by 27 billion kg, equivalent to taking 12 million cars off the road for one year; conserving biodiversity by saving 152 million hectares of land from 1996-2014; and helped alleviate poverty for ~16.5 million small farmers and their families totaling ~65 million people, who are some of the poorest people in the world. Biotech crops are essential but are not a panacea ? adherence to good farming practices such as rotations and resistance management, are a must for biotech crops as they are for conventional crops.
FACT # 10. Future Prospects. Three domains merit consideration. Firstly, high rates of adoption (90% सेवा 100%) in current major biotech markets leave little room for expansion; तथापि, there is a significant potential in other ?new? countries for selected products, such as biotech maize, which has a potential of at least ~100 million hectares globally, 60 million ha in Asia (35 million ha in China alone), तथा 35 million ha in Africa. Secondly, there are more than 85 potential new products in the pipeline now being field-tested, the penultimate step to approval. They include the WEMA-derived biotech drought tolerant maize expected to be released in Africa in 2017, Golden Rice in Asia, and fortified bananas and pest resistant cowpea look promising in Africa. Institutionally, public-private partnerships (PPP) have been successful in developing and delivering approved products to farmers. Thirdly, the advent of genome-edited crops may be the most important development identified by today?s scientific community. A recent and promising application is the powerful technology, named CRISPR. Many well-informed observers are of the view that genome editing offers a timely and powerful unique set of significant comparative advantages over conventional and GM crops in four domains: precision, speed, cost and regulation. Unlike the onerous regulation that currently applies to transgenics, genome-edited products logically lend themselves for science-based, fit-for-purpose, proportionate, and non-onerous regulation. एforward-looking strategy has been proposed (Flavell, 2015) featuring the troika of transgenes, genome editing and microbes (the use of plant microbiomes as a new source of additional genes to modify plant traits) to increase crop productivity, in a ?sustainable intensification? mode, which in turn can viably contribute to the noble and paramount goals of food security and the alleviation of hunger and poverty.