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Flood-Tolerant Rice Benefits Farmers in India

Flood-Tolerant Rice BenefitsRice farming and production impacts the lives of millions throughout the world. Rice is the staple food of three billion people globally and a source of income for many. The farming of rice also contributes significantly to the economic growth of many countries. Especially within developing countries, the success of rice production is crucial for feeding individuals and creating economic stability. Flood-tolerant rice benefits developing countries reliant upon rice for livelihoods, food security, and the economy’s stability.

Environmental Challenges Affect Rice Production in India

Recent changes in the climate have caused rice production volatility due to flooding and drought. As many as 4.8 million people in India are exposed to river flood risks each year. In India, environmental challenges have had an especially negative effect on rice crops as floods have overtaken many viable planting areas. This flooding has disproportionately affected low-income farmers. These farmers often work with less reliable plots of land that are more prone to flooding. Without the development of techniques to help combat extreme weather, both the livelihoods of low-income people within India and the general Indian economy will experience a significant socio-economic impact.

Swarna Sub-1 Rice

A strain of flood-tolerant rice called Swarna Sub-1 has been a major development that addresses crop damage due to flooding in India. As a mixture of two different rice varieties, this scientifically developed plant is able to withstand intense flooding. This type of rice has been on the market for use since around 2009; however, many farmers have not had access to the rice strain until recently. This is largely due to the lack of information about the existence of Swarna Sub-1 and a lack of accessibility to it.

Flood-Tolerant Rice Benefits

The introduction of flood-tolerant rice has allowed for an increase in rice production, as J-PAL studies have shown. J-PAL is an organization that researches innovative solutions to global poverty. The increased rice production throughout India has had an incredibly positive effect, both economically and socially, as there is a larger supply of rice boosting local economies. As impoverished farmers have seen more successful rice harvests, they have been keener to cultivate a greater amount of farmland and make riskier agricultural decisions. Farmers have also invested in fertilizers to further increase crop health as they are more sure of their ability to create a solid income through rice farming. Additionally, precautionary rice savings decreased, suggesting farmers have perceived lower risk of crop losses with the flood-tolerant rice.

Swarna Sub-1 seeds increased rice yields by about 10% over the course of two years, as seen in the study. Researchers stated that the productive behavior changes among farmers who planted Swarna Sub-1 accounted for 41% of the long-term increase in rice yields. The higher yields also increased the income of farmers by roughly $47 per hectare.

The Potential of Flood-Tolerant Rice

These flood-tolerant rice benefits have improved the livelihoods of impoverished farmers in India while also contributing to food security and local economies. Increased access to flood-tolerant rice varieties in developing countries has the potential to improve lives and lift people out of poverty.

– Olivia Bay 
Photo: Flickr

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3 Ways Nanotechnology is Alleviating Poverty

Nanotechnology is Alleviating PovertyIn its most basic sense, the concepts behind nanotechnology were formulated by acclaimed physicist Richard Feynman in 1959. Over the past four decades, nanotechnology has made significant advancements and research is expanding as costs are falling. Because of these innovations, nanotechnology is alleviating poverty worldwide.

Using Nanosensors for Water Management in Agriculture

Whether mechanical or chemical, nanosensors use tools to detect minor changes in chemical composition and relay information to change the dynamics of whatever they are monitoring. Nanosensors use artificial intelligence and computing to make adjustments as soon as any predicaments arise. Because of their sensitivity and small scale, nanosensors can detect problems well before other outdated instruments.

In a study for sustainable agriculture, the Organisation for Economic Co-operation and Development (OECD) asserts nanotechnology is alleviating poverty issues such as food insecurity. The OECD study concluded that nanosensors effectively detect changes in moisture across fields of crops. They then automatically adjust the disbursement of water and eliminate water waste while preventing crop losses. Farm machines outfitted with nanosensors detect moisture levels in different crops and suggest better-suited areas for specific crops allowing farmers to change planting patterns or change water allocations to other land plots.

Nanofiltration Membranes Provide Clean Drinking Water

Access to clean water is a crisis that many developing countries face. Usually, the first issue dealt with when fighting poverty is economic development so regulations are not often in place to protect against pollution. In some countries, scarcity of clean groundwater becomes problematic too. However, nanotechnology is alleviating poverty in these areas by providing clean drinking water.

Ghana was the center of a study on the effectiveness of nanofiltration membranes conducted by the International Water Association (IWA) and members of the Indian Institute of Science. The IWA chose to test Ghana’s groundwater due to the high level of pollutants present. During the study, it tested the levels of contaminants, bacteria and natural materials that render water non-potable before and after utilizing nanofiltration membranes.

The results of the IWA study were impressive. Not only did the study determine that nanofiltration reduces pollutants to potable levels, but executed efficiently enough, rural areas could produce enough water for more than 100 households. Ultimately, the conclusion was that nanofiltration was a low-cost solution for drinking water access and production in impoverished rural regions worldwide.

Nanotechnology to Fight Infectious Disease

Most original concepts of nanotechnology’s usefulness focused on medical care. The World Health Organization (WHO) has long been fond of utilizing nanotechnology in health care and fighting infectious diseases. The WHO now recognizes that nanotechnology is alleviating poverty in developing nations through scientific medical breakthroughs.

The first need for nanotechnology to address in developing countries is the diagnosis of disease. Nanobiotechnology allows for an inexpensive option to find multiple dangerous microbes using a single test. These technologies have improved over time and are being used in developing nations to detect most viral and bacterial infections, including tuberculosis.

The COVID-19 vaccine development shows the importance of nanotechnology in the prevention of disease too. The Pfizer and Moderna vaccines use a nanocarrier system designed to activate the immune system to fight COVID-19 by assisting antibody production. The distribution of the vaccine to developing nations is now underway.

The Future of Nanotechnology for Poverty Reduction

Nanotechnology is alleviating poverty in developing nations, and with continued scientific inquiry and advancements in nanotechnology, new applications for poverty reduction will improve. Nanotechnology’s cost-effectiveness and versatility make it one of the most viable technologies to assist in the struggle against poverty.

– Zachary Kunze
Photo: Flickr