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Solution

K
Kaustuv Bose
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The Solution Introduction There are always 2 ways to look at a problem – the optimistic way, which is to attempt to eradicate the problem and the pragmatic way, which is to adjust and optimize ourselves to the problem. A huge problem such as “Climate Change”, which stands before us today as a result of decades and centuries of negligence and unsustainable over-exploitation, is no longer the monster beneath our beds but has transformed itself into the elephant in the room. What remains to be done at this critical junction of human history is to draw a best fit line that conforms to the situation best- connects the scattered points of absolute disarray that years and years of misuse of Mother Earth have left on the face of the planet as specks of dirt dotting our various rivers and riverfronts and the black blots that cloud our skies and rains down acid on our monuments and yet provide a line of action that allows us to preserve and conserve , to show respect and allow respite, to sustain and still retain enough for the future. In view of this situation, we the 3rd year students of Jadvpur University, Department of Food Technology and Biochemical Engineering have come up with a “best-fit line” that will hopefully chart the path of human civilization towards a more sustainable future. Our solution focusses on adapting to Climate Change in the Food and Agri-Business Sector which can be achieved through incorporation of and inter-cooperation between the  Producers : Mainly comprising the farmers and allied researchers, food scientists, agriculturists and agro-businessmen  Industry: Mainly comprising the food and beverage processing companies and the people involved in the business and research thereof  Administration: Mainly comprising the policy-makers, the legislators, the judiciary and the enforcers. The Producers  Climate analogues are an approach that can help people visualize what their climate and environment is likely to look like in the future. The idea of the analogue tool is to connect a particular location with places that have climates similar (analogous) to what scientists expect the climate will be like in that location at a given time in future due to climate change. The tool can be used to help rural communities adapt to their changing climate by enabling farmers to better envision how their agricultural future might look like. For example, if farmers in a particular area rely heavily on maize production, and the climate analogue tool shows that this
area will soon resemble a range of other locations where maize is not planted because there is not enough rainfall, farmers may want to start thinking about shifting from maize to other crops. This tool can contribute to facilitating farmer-to-farmer exchanges of knowledge. These exchanges could happen through a variety of means, including visits to analogue sites, the use of films or via cell phone communications.  Inputs such as varieties/species must be altered to those with more appropriate thermal time and vernalization (promotion of flowering by exposure of young plants to cold temperatures) requirements and/or with increased resistance to heat shock and drought, fertilizer rates to maintain grain or fruit quality consistent with the prevailing climate, quantity and timing of irrigation for enhanced water management and timing or location of cropping activities for effective production must be undertaken.  Wider use of technologies to “harvest” water, conserve soil moisture (e.g., crop residue retention), and use and transport water more effectively where rainfall decreases. Methods such as rain water harvesting, construction of bunds and in-field channels, step-farming in hilly areas and optimal use of water facilitated by modern technologies such as Internet of Things (IoT) must be popularized. Management of water to prevent water logging, erosion, and nutrient leaching where rainfall increases should also be undertaken.  Diversifying income through altering integration with other farming activities such as livestock breeding will prevent loss of livelihood for the farmers.  Improving the effectiveness of pest, disease, and weed management practices through wider use of integrated pest and pathogen management and organic solutions is definitely the way forward. Alternatively development and use of varieties and species resistant to pests and diseases ,maintaining or improving quarantine capabilities and monitoring programs etc are research areas that deserve serious thought and hard work.  The confluence of mathematical modelling, computer algorithms, geographical agro-climactic condition-analysis and crop characteristic determination to predict climate risk and using it to reduce production risk should be seriously considered and implemented.  Inclusivity of women into the agricultural educational and process-implementation system should increase. According to a study by FAO State of Food and Agriculture, more than 100 million people could be lifted out of poverty if women had the same access to and control of resources as men, as of 2010-11. The approach taken by FAO-CCAFS to gender-sensitive research is intended to support more widespread uptake of climate-smart agricultural practices, by both women and men, and enhance the likelihood that the benefits of initiatives, projects and programs are effective and equitable.  The shift from dependence on mechanized agricultural techniques and agro-climatic conditions to laboratory-based tissue culture techniques is more needed now than ever. Allied technologies such as genetic re-engineering, fermentative and enzymatic methods to speed up production of specific compounds and molecules instead of breeding the entire plant must also be incorporated into the agricultural framework as soon as possible. The Industry
 A food production unit’s primary source of greenhouse gas emissions is from the use of energy in its manufacturing facilities and transportation fleet, so implementation of a global energy management program that promotes conservation, manages energy use and investigates energy savings opportunities, including alternative fuels must be undertaken. Some of the aims could be reduced energy use from lighting, modified steam system to save enough natural gas to reduce greenhouse gas emissions by a few thousand tons and focused attention on its fleet of vehicles which could automatically shut down after a few minutes of idle time.  Waste management should be another focus area. The company should practice the 3 R’s: reduce, reuse and recycle. Programs must be implemented in- plant to divert tons of waste per year from landfills to recycling. More than 80 percent of the waste generated in the manufacturing facilities should be recycled.  Packaging innovation can allow the company to continually reduce the weight and volume of its packaging. The company should strive to optimize the use of materials that are recyclable and each package should contain significant recycled content.  Instead of ravaging the natural habitats of animals, meat processing units and dairy farms should work in close collaboration with governmental bodies and agencies with an aim to systematically reform its business practices by being more humane and friendly to the environment in which they operate.  A shift from paper-based packaging material to recyclable low-weight plastics not only saves thousands of trees but also relieves stress on landfills and promotes recyclability.  A complete shift to refrigeration technologies that do not use CFCs and hydrofluoric compounds but instead uses cryo-freezing (using liquid nitrogen) or dry ice is desirable.  In-plant installations of green sources of electricity including solar/photovoltaic, wind, geothermal, low-impact hydropower and other forms of renewable power generation to meet the plant requirements can go a long way in cutting the carbon footprints of many industries.  Beverage production units should consider undertaking a water replenishment strategy that returns to nature and communities the water in their beverages through water projects outside manufacturing plant boundaries as well as the waste-water used to produce the beverages back to a community after proper treatment. The majority of the water which is sourced to make beverages is from established municipal systems (the same as a person getting water out of the tap at their home) or from other sources like rivers, reservoirs, wells, aquifers, etc. – each governed by local authorities and stringent, internal requirements. The water that does not go into making beverages but is instead used in the manufacturing should be treated as per comprehensive global quality standards and then returned to nature and municipalities.  Food processing units and beverage production units should utilize biogas as an energy source. Utilization of biogas reduces pressure on landfills and reduces green-house gas emissions and the carbon footprint of the industry. Meat processing units can use meat scrap waste to make methane that will replace high-cost natural gas. Process water waste can be treated in large lagoons covered with giant tents to capture the biogas, when emitted. The methane gas can then be fed to the plant’s boiler room to generate steam and hot water. The system can displace a percent of natural gas demand and can reduce the unit’s greenhouse gas emissions by thousands of tons annually.
The Administration  Development of robust monitoring systems would allow the adaptive systems to be accountable for changes and should provide a mechanism to integrate monitoring results into management planning.  Natural resource programs must be designed to foster programmatic learning within an agency which must be able to adjust and improve management decisions over time, to fix management missteps born from limited information and uncertainty, and to promote consideration of such lessons in future management decisions. Evidence now exists that climate systems are not acting in a stationary manner, so agencies should adopt measures that subsequent experience reveals are sufficient or almost perfectly tailored to current conditions.  The fragmentation and limited coordination of local regulatory authorities (state governments) over natural resources exacerbates the problem as it makes management of long-term climate- driven impacts difficult. Given the local variation in how climate change is likely to affect resources, the substantial tailoring benefits of more local or specialized decision making are likely to persist. Key to maximizing the diversity and experimentation benefits of decentralized and overlapping governance is an infrastructure that collects the disparate information about ambient conditions and management strategies, disseminates it broadly, and encourages regulators to learn from the data and experiences of other authorities.  Incentives must be offered to industries and producers who successfully implement schemes , in accordance with NAPCC requirements and strict policing and harsh punishments must be meted out to those who fail to do so.  Pressure must be applied on beverage industries especially to return water back to the society through effective waste-water treatment plants within the manufacturing area as well as through community collaborations that allow construction and protection of watersheds and rain-water harvesting systems.  Development of a continuous evaluation system of industries as well as producers is necessary to ensure regular checks on the progress made and facilitation of progress through filing and submission of monthly progress reports must be made mandatory. We can go on and on about reactive or pre-emptive measures but at the end of the day none of the measures suggested can be successful within an efficient and robust system that allows for interlinking of the three categories mentioned. It is only through an effective collaborative approach between the multitudes of people involved in successfully producing the barm from the farm, that the future existence of the farm, the barm and the people involved can be ensured. Effective inter and intra- governmental co-operation with the industries and the farmers, facilitated by progressive research and development is the way forward if we want our children to see the world that we see today.

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Solution

  • 1. The Solution Introduction There are always 2 ways to look at a problem – the optimistic way, which is to attempt to eradicate the problem and the pragmatic way, which is to adjust and optimize ourselves to the problem. A huge problem such as “Climate Change”, which stands before us today as a result of decades and centuries of negligence and unsustainable over-exploitation, is no longer the monster beneath our beds but has transformed itself into the elephant in the room. What remains to be done at this critical junction of human history is to draw a best fit line that conforms to the situation best- connects the scattered points of absolute disarray that years and years of misuse of Mother Earth have left on the face of the planet as specks of dirt dotting our various rivers and riverfronts and the black blots that cloud our skies and rains down acid on our monuments and yet provide a line of action that allows us to preserve and conserve , to show respect and allow respite, to sustain and still retain enough for the future. In view of this situation, we the 3rd year students of Jadvpur University, Department of Food Technology and Biochemical Engineering have come up with a “best-fit line” that will hopefully chart the path of human civilization towards a more sustainable future. Our solution focusses on adapting to Climate Change in the Food and Agri-Business Sector which can be achieved through incorporation of and inter-cooperation between the  Producers : Mainly comprising the farmers and allied researchers, food scientists, agriculturists and agro-businessmen  Industry: Mainly comprising the food and beverage processing companies and the people involved in the business and research thereof  Administration: Mainly comprising the policy-makers, the legislators, the judiciary and the enforcers. The Producers  Climate analogues are an approach that can help people visualize what their climate and environment is likely to look like in the future. The idea of the analogue tool is to connect a particular location with places that have climates similar (analogous) to what scientists expect the climate will be like in that location at a given time in future due to climate change. The tool can be used to help rural communities adapt to their changing climate by enabling farmers to better envision how their agricultural future might look like. For example, if farmers in a particular area rely heavily on maize production, and the climate analogue tool shows that this
  • 2. area will soon resemble a range of other locations where maize is not planted because there is not enough rainfall, farmers may want to start thinking about shifting from maize to other crops. This tool can contribute to facilitating farmer-to-farmer exchanges of knowledge. These exchanges could happen through a variety of means, including visits to analogue sites, the use of films or via cell phone communications.  Inputs such as varieties/species must be altered to those with more appropriate thermal time and vernalization (promotion of flowering by exposure of young plants to cold temperatures) requirements and/or with increased resistance to heat shock and drought, fertilizer rates to maintain grain or fruit quality consistent with the prevailing climate, quantity and timing of irrigation for enhanced water management and timing or location of cropping activities for effective production must be undertaken.  Wider use of technologies to “harvest” water, conserve soil moisture (e.g., crop residue retention), and use and transport water more effectively where rainfall decreases. Methods such as rain water harvesting, construction of bunds and in-field channels, step-farming in hilly areas and optimal use of water facilitated by modern technologies such as Internet of Things (IoT) must be popularized. Management of water to prevent water logging, erosion, and nutrient leaching where rainfall increases should also be undertaken.  Diversifying income through altering integration with other farming activities such as livestock breeding will prevent loss of livelihood for the farmers.  Improving the effectiveness of pest, disease, and weed management practices through wider use of integrated pest and pathogen management and organic solutions is definitely the way forward. Alternatively development and use of varieties and species resistant to pests and diseases ,maintaining or improving quarantine capabilities and monitoring programs etc are research areas that deserve serious thought and hard work.  The confluence of mathematical modelling, computer algorithms, geographical agro-climactic condition-analysis and crop characteristic determination to predict climate risk and using it to reduce production risk should be seriously considered and implemented.  Inclusivity of women into the agricultural educational and process-implementation system should increase. According to a study by FAO State of Food and Agriculture, more than 100 million people could be lifted out of poverty if women had the same access to and control of resources as men, as of 2010-11. The approach taken by FAO-CCAFS to gender-sensitive research is intended to support more widespread uptake of climate-smart agricultural practices, by both women and men, and enhance the likelihood that the benefits of initiatives, projects and programs are effective and equitable.  The shift from dependence on mechanized agricultural techniques and agro-climatic conditions to laboratory-based tissue culture techniques is more needed now than ever. Allied technologies such as genetic re-engineering, fermentative and enzymatic methods to speed up production of specific compounds and molecules instead of breeding the entire plant must also be incorporated into the agricultural framework as soon as possible. The Industry
  • 3.  A food production unit’s primary source of greenhouse gas emissions is from the use of energy in its manufacturing facilities and transportation fleet, so implementation of a global energy management program that promotes conservation, manages energy use and investigates energy savings opportunities, including alternative fuels must be undertaken. Some of the aims could be reduced energy use from lighting, modified steam system to save enough natural gas to reduce greenhouse gas emissions by a few thousand tons and focused attention on its fleet of vehicles which could automatically shut down after a few minutes of idle time.  Waste management should be another focus area. The company should practice the 3 R’s: reduce, reuse and recycle. Programs must be implemented in- plant to divert tons of waste per year from landfills to recycling. More than 80 percent of the waste generated in the manufacturing facilities should be recycled.  Packaging innovation can allow the company to continually reduce the weight and volume of its packaging. The company should strive to optimize the use of materials that are recyclable and each package should contain significant recycled content.  Instead of ravaging the natural habitats of animals, meat processing units and dairy farms should work in close collaboration with governmental bodies and agencies with an aim to systematically reform its business practices by being more humane and friendly to the environment in which they operate.  A shift from paper-based packaging material to recyclable low-weight plastics not only saves thousands of trees but also relieves stress on landfills and promotes recyclability.  A complete shift to refrigeration technologies that do not use CFCs and hydrofluoric compounds but instead uses cryo-freezing (using liquid nitrogen) or dry ice is desirable.  In-plant installations of green sources of electricity including solar/photovoltaic, wind, geothermal, low-impact hydropower and other forms of renewable power generation to meet the plant requirements can go a long way in cutting the carbon footprints of many industries.  Beverage production units should consider undertaking a water replenishment strategy that returns to nature and communities the water in their beverages through water projects outside manufacturing plant boundaries as well as the waste-water used to produce the beverages back to a community after proper treatment. The majority of the water which is sourced to make beverages is from established municipal systems (the same as a person getting water out of the tap at their home) or from other sources like rivers, reservoirs, wells, aquifers, etc. – each governed by local authorities and stringent, internal requirements. The water that does not go into making beverages but is instead used in the manufacturing should be treated as per comprehensive global quality standards and then returned to nature and municipalities.  Food processing units and beverage production units should utilize biogas as an energy source. Utilization of biogas reduces pressure on landfills and reduces green-house gas emissions and the carbon footprint of the industry. Meat processing units can use meat scrap waste to make methane that will replace high-cost natural gas. Process water waste can be treated in large lagoons covered with giant tents to capture the biogas, when emitted. The methane gas can then be fed to the plant’s boiler room to generate steam and hot water. The system can displace a percent of natural gas demand and can reduce the unit’s greenhouse gas emissions by thousands of tons annually.
  • 4. The Administration  Development of robust monitoring systems would allow the adaptive systems to be accountable for changes and should provide a mechanism to integrate monitoring results into management planning.  Natural resource programs must be designed to foster programmatic learning within an agency which must be able to adjust and improve management decisions over time, to fix management missteps born from limited information and uncertainty, and to promote consideration of such lessons in future management decisions. Evidence now exists that climate systems are not acting in a stationary manner, so agencies should adopt measures that subsequent experience reveals are sufficient or almost perfectly tailored to current conditions.  The fragmentation and limited coordination of local regulatory authorities (state governments) over natural resources exacerbates the problem as it makes management of long-term climate- driven impacts difficult. Given the local variation in how climate change is likely to affect resources, the substantial tailoring benefits of more local or specialized decision making are likely to persist. Key to maximizing the diversity and experimentation benefits of decentralized and overlapping governance is an infrastructure that collects the disparate information about ambient conditions and management strategies, disseminates it broadly, and encourages regulators to learn from the data and experiences of other authorities.  Incentives must be offered to industries and producers who successfully implement schemes , in accordance with NAPCC requirements and strict policing and harsh punishments must be meted out to those who fail to do so.  Pressure must be applied on beverage industries especially to return water back to the society through effective waste-water treatment plants within the manufacturing area as well as through community collaborations that allow construction and protection of watersheds and rain-water harvesting systems.  Development of a continuous evaluation system of industries as well as producers is necessary to ensure regular checks on the progress made and facilitation of progress through filing and submission of monthly progress reports must be made mandatory. We can go on and on about reactive or pre-emptive measures but at the end of the day none of the measures suggested can be successful within an efficient and robust system that allows for interlinking of the three categories mentioned. It is only through an effective collaborative approach between the multitudes of people involved in successfully producing the barm from the farm, that the future existence of the farm, the barm and the people involved can be ensured. Effective inter and intra- governmental co-operation with the industries and the farmers, facilitated by progressive research and development is the way forward if we want our children to see the world that we see today.