How Will Agriculture Change In The Future

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How Will Agriculture Change In The Future

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Crop and livestock production is expected to decline and desertification is expected in parts of southern Europe and the Mediterranean as the negative effects of climate change increase. . Climate change adaptation should be a priority for EU agriculture to increase resilience to extreme events such as droughts, heat waves and floods, the study says.

New records are being set worldwide due to climate change, and the negative effects of this change are already affecting agricultural production in Europe, especially in the south. Despite some progress, more needs to be done to adapt the sector itself, and especially at the farm level, and future EU policies should be designed to facilitate and accelerate the transition in the sector. Hans Bruyninckx, Managing Director

Changing The Food System To Help Change The Future

The negative effects of climate change are already being felt in Europe. Extreme weather, including recent weather waves in many parts of the EU, is already causing economic losses for farmers and agriculture in the UK. Future climate change may have some positive effects due to longer growing seasons and more favorable crop conditions, but these effects will be outweighed by an increase in extreme events that adversely affect the industry.

According to the report “Adapting to Climate Change in European Agriculture”, these negative impacts are expected to increase with projected climate change. The report looks at the key climate change-related issues facing agriculture in climateB and the outlook for the coming years. It also provides an overview of how EU policies and programs address climate change adaptation and includes examples of viable and successful adaptation measures. The assessment is consistent with key messages from the Intergovernmental Panel on Climate Change and Land Use (IPCC) report.

New records are being set worldwide due to climate change, and the negative effects of this change are already affecting agricultural production in Europe, especially in the south. “Despite some progress, more needs to be done to adapt the sector itself and especially at the farm level, and future EU policies should be designed to facilitate and accelerate the transition in the sector,” he said.

Climate impacts have affected the price, quantity and quality of agricultural products in parts of Europe, leading to lower yields and higher production. While climate change is predicted to improve conditions for growing crops in parts of northern Europe, the opposite is true for crop productivity in southern Europe. Yields of non-irrigated crops such as wheat, maize and sugar beet are expected to decline by up to 50% in Southern Europe by 2050, according to projections using a high-quality emissions scenario. This can lead to a significant reduction in farm income. by 2050 with large regional variations.

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In a similar scenario, farmland values ​​are expected to fall by more than 80% in parts of southern Europe by 2100, which could lead to land abandonment. Business types are also affected, which in turn affects agricultural income. While food security is not a threat in the EU, rising global food demand could put pressure on food supplies in the coming decades, the report said.

Most Member States have national adaptation strategies. Although all these strategies include agriculture as a priority sector, only a limited number of countries have agriculture-specific adaptation measures.

The EU’s adaptation strategy is a key driver of adaptation action in Europe. One of its aims is to introduce adaptation in various EU policies, such as the Common Agricultural Policy (CAP). However, adaptation at the farm level often does not occur due to lack of resources, political support for adaptation, institutional capacity and access to adaptation knowledge. The report states that more education, innovation and awareness are needed to increase the effective use of adaptation measures already in place, such as the introduction of adapted crops, improved irrigation systems, cropland and agroforestry, crop diversification or precision agriculture (see figure).

These practices should also lead to reductions in greenhouse gases and air pollutants, and better management of soil, land and water resources, which in turn will help preserve local ecosystems and biodiversity. The report also suggests that EU member states prioritize adaptation in agriculture, for example by increasing funding for adaptation measures through the implementation of the CAP.

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Agriculture also plays an important role in reducing greenhouse gas emissions. Agriculture accounts for about 10% of global greenhouse gas emissions. methane (CH)

) are two major air pollutants from agriculture. Although greenhouse gas emissions from agriculture have decreased since 1990, more needs to be done by the sector to meet the EU’s 2030 and 2050 greenhouse gas reduction targets.

To reduce greenhouse gas and air pollution emissions, Europe needs to transform its food system and reduce agricultural emissions from fertilisers, manure storage and livestock. This can be achieved by improving fertilizer use, efficiency of fertilizer treatment and increasing animal productivity. Consumer behavior will also have to change. Dietary changes, such as eating less meat and reducing food waste, will help reduce it further.

The European Commission’s Climate Change and Adaptation Program LIFE (Financial Instrument for Environment and Climate Action) has launched the “Ready, Sustainable, Green!” initiative, which shows how LIFE helps agriculture. Published a brochure on adaptation. Forestry is adapting to climate change.

How Technology Will Influence The Farms Of The Future

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Filed under: climate change impacts, agricultural emissions, extreme weather events, climate change adaptation, common agricultural policy, sustainable agriculture 5G will transform agriculture by implementing precision agriculture, achieving optimal costs, and optimizing the use of crops and livestock. sources.

India is the second largest producer of wheat and rice in the world. Agriculture is the backbone of the Indian economy and has registered impressive growth in recent decades.

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Agriculture and health are important sectors, especially in the Indian context. The true impact of 5G on the common man will digitally transform the agriculture and healthcare sectors. 5G technology will disrupt public utility agriculture. Although 60 percent of the labor force in our country is engaged in agriculture, the contribution of agriculture to the GDP is only 18 percent. The inefficiencies of the current agricultural system can be solved through technology. 5G is revolutionizing agriculture by implementing precision agriculture, achieving best costs, optimizing the use of crops and livestock inputs, smart management and providing the best value to end users. 5G enabled drones can be deployed to remotely sense farmers and spray fertilisers/insecticides/pesticides.

ICAR (Indian Council of Agricultural Research) has launched this massive web application on precision agriculture covering crop health, soil health, post-harvest management, fisheries and animal husbandry. One of the goals of this program is to develop variable rate technologies (VRT) for site-specific access control.

VRT is a tool that allows farmers to apply fertilizer, water, pesticides, and seeds at different rates across the field. In this technology, 5G-enabled sensors measure soil properties or crop characteristics in real time. The control system then calculates the amount of input required. The benefits of using this technology include increased production, environmental protection and cost reduction.

Precision agriculture is a strategy to increase productivity. This strategy increases accuracy, precision and throughput at all levels while reducing costs and labor through automation, remote sensing, data analytics and the use of disruptive innovations such as 5G. The goals are affordability, environmental protection and sustainability.

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Applications of 5G in agriculture include the use of 5G-powered modular IOT (Internet of Things) gateways that can monitor weather, agricultural vehicles, livestock, soil moisture, plant health, pest control, and water supply.

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