Tag: emissions

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Emissions reduction: Ambition Vz reality

Sonal Desai

India’s carbon emissions are predicted to rise due to increased fossil fuel use in industry, power generation, transportation, and energy consumption.

By 2050, energy demand is expected to surpass any other region, driven by additional factors like urbanization and built space expansion.

Despite this, India’s investments in clean energy have increased rapidly in response to aggressive targets, according to IEA’s World Energy Investment report.

India’s carbon emissions and growth:

• India’s carbon emissions are expected to rise due to increased fossil fuel use in industry, power generation, and transportation.
• India’s annual GHG emissions have nearly tripled since the turn of the century, reaching a record high of 2.7 GtCO₂ in 2022, according to Statista.
• Global energy think tank, Ember Report placed India as the world’s third-largest solar power producer in 2023, surpassing Japan.
• India ranks 7th in the Climate Change Performance Index (CCPI), up one spot from the previous year.

The growth story:

Indian clean energy investment surged to $68 billion in 2023, a 40% increase from 2016 to 2020. Solar PV and low-emission power generation accounted for half. Fossil fuel investments reached $33 billion.

The country ranks high in GHG emissions and energy use but medium in climate policy and renewable energy. India is on track to meet 2°C benchmarks despite low per capita emissions.

The NDC impact:

The country is attempting to meet its national determined contribution (NDC) through long-term policies promoting renewable energy and domestic manufacturing.

However, its heavy reliance on coal, oil, and gas contributes to greenhouse gas emissions and air pollution. India’s high petrol and diesel taxes are disputed, with some describing them as effective but others pointing to government dependence. The country’s energy system, largely reliant on imported fossil fuels, may strain, leading to increased carbon emissions.

Furthermore, India and China’s recent change to the cover decision at COP28, stating ‘phase down’ instead of ‘phase out’, has slowed global efforts to end the fossil fuel era.

Large-scale renewable energy projects negatively impact local communities through land grabs and unequal distribution. Policymakers should focus on transformative adaptation, disaster risk management, ecosystem-based solutions, and equity.

Expert take:

Experts argue that India’s ambitious goal of achieving net-zero emissions by 2070 lacks ambition and political will.

They recommend a bottom-up approach, including tribal and rural communities, faster coal phase-out, reduced gas reliance, and expanded renewable energy.

They also suggest a move to reach net-zero by 2050 and create affordable, accessible, and sustainable infrastructure. India has auctioned over 20 gigawatts of renewable energy capacity in 2023.

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AI Washing Eroding Trust in ESG Initiatives?

Renjini Liza Varghese

The environmental, social, and governance (ESG) space has long grappled with greenwashing. In greenwashing, companies often under or over-quote their environmental commitment for marketing advantage. We are also familiar with phrases like Blue washing and Pinkwashing, categorized under the ‘S’ factor’S’ ESG.

AI washing is emerging as a significant challenge in ESG dynamics.

One may wonder about the connection between AI washing and sustainability. Therefore, we begin with a definition of AI washing.

AI washing is the practice of a business overstating the amount of AI that is used in its goods and services. A recent order regarding AI washing from the US Securities and Exchange Commission (SEC) piqued my interest in this topic. Their position is unambiguous: businesses need to disclose their real AI integration. This is vital because exaggerated claims regarding AI’s capabilities have the potential to deceive stakeholders and investors.

I tried to connect the dots between AI and sustainability, and here is my take on the issue. 

We have seen tech platforms enabling, fast-tracking, and measuring the impacts of sustainability initiatives. Sustainability and technology go hand-in-hand. Technology and sustainability cannot be delinked from each other. All the same, if not controlled or measured, technology can also play a spoiler to the company’s company’s-2, -3, and now -4 measurements.

Take, for example, a company that touts its “AI-powered “sustainability initiative. This may, in reality, be fundamental data analysis. The misleading narrative is a classic case of AI-driven greenwashing. It can undermine transparency and erode trust in ESG, creating further hurdles in recognizing genuine sustainability efforts. This presents a huge concern.

Deception in the digital age:

The impact of a narrative is deep and wide. When companies embellish their AI prowess, stakeholders become sceptical. This hinders genuine AI advancements that could benefit both businesses and society.

Excited, AI washing can slacken tech adoption and hinder progress.

Let me give you an example. AI tools can optimize resource utilization, identify environmental risks, and enhance supply chain transparency. On the other hand, AI washing undermines the confidence of investors and stakeholders who fall prey to pretence or false reports and invest in companies that don’t deliver on their promises. This can have a significant impact on market dynamics.

AI washing is a sophisticated evolution of greenwashing. Companies can leverage AI-generated reports or fabricated data analysis to bolster their supposed sustainability efforts, making it increasingly difficult to differentiate genuine progress from marketing gimmicks.

How to safeguard against AI washing?

It is a call for extra vigilance. To combat AI washing and ensure the integrity of ESG initiatives, several key steps are essential:

Critical thinking: Do not take claims about AI at face value. Ask questions about the specific applications and their impact.

Prioritize transparency: Clearly articulate how AI is integrated into your ESG strategy. Businesses must provide detailed explanations of their AI-powered sustainability programs. What specific challenges are these programs designed to address? How is AI being utilized to achieve these objectives?

Independent verification: Support independent audits and certifications to substantiate the AI adoption and impacts in sustainability efforts. Also, encourage research and reporting that investigates and exposes AI washing practices.

Regulatory support:  Supporting regulatory bodies in establishing clear guidelines and enforcing them effectively is crucial in combating AI washing.

Investor and consumer education:  Empowering both investors and consumers through educational initiatives is crucial. Foster open dialogues and raise awareness about AI washing.

AI washing poses a significant threat to the integrity of ESG initiatives. However, through collaborative action and a collective commitment to transparency, we can ensure that AI is used as a force for good, driving genuine progress in sustainability.

After all, in today’s current landscape, trust is the bedrock of a solid corporate reputation and a key differentiator in attracting stakeholders who value genuine ESG commitment.

 

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Hospitals, Healthcare, Climate change

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Hospitals: The New Victims of Emissions?

Sonal Desai

Hospitals, the lifeline of citizens globally, are fighting a new pandemic!

According to a new study from Cross Dependency Initiative (XDI), more than 2 lakh hospitals globally, face the risk of shutdowns due to extreme weather.

Translated: 1 in 12 hospitals around the world could face partial or total shutdown from climate change-triggered extreme weather events by century-end if countries continue to emit unabatedly.

The statistics for India are equally harrowing. The document said in India, the proportion of hospitals at high risk of being shut down by extreme weather events would be 5.7 percent by 2050.

Translated: These events will impact almost 1 in 10 hospitals by century-end if emissions are high.

These figures tell a startling tale. They serve as a warning to the entire healthcare ecosystem.

Healthcare systems are part of the solution as well as part of the issue, bearing the brunt of providing care for those impacted by climate change. As per data, up to 4.6% of all greenhouse gas (GHG) emissions—which include ozone, carbon dioxide, and methane—are produced globally by the healthcare industry.

India’s healthcare system is diverse in ownership, size, and comfort levels, resulting in varying energy needs across different institutions. The categories include (public, insurance, municipal, railway, defense, and private hospitals, for example) and size (small clinics in rural areas to large multi-specialty hospitals), air-conditioned areas, and medical services. Hospitals, a vital industry, rely heavily on grid power for operations like cleaning, washing, and oxygen provision, ensuring constant power supply.

Climate change can significantly impact healthcare access and delivery, potentially disrupting infrastructure essential for emergency services, transportation, and communication networks.

Research also shows that heavy reliance on fossil fuels in medical cold chains negatively impacts healthcare providers, causing fuel supply issues and power outages. This exacerbates global warming, contributes to air pollution, and increases greenhouse gas emissions.

In terms of actual numbers, the pharmaceutical industry in India has the seventh-largest climate footprint in the health sector. The industry is expected to develop at a 13.4% compound annual growth rate (CAGR) until 2030, which, absent a shift to more environmentally friendly and energy-efficient alternatives, would increase both energy demand and carbon footprint.

Insights from a National Hospital Energy Consumption Survey titled: Towards Climate-smart Hospitals found the following:
• Electricity from the grid (mainly), on-site solar PV, and on-site diesel generators comprise more than 90% of hospitals’ energy supply.
• The penetration of on-site solar PV is 17% in private and 11% in public hospitals.
• Hospitals consumed ~9% of India’s “commercial” electricity consumption in FY2019-20 (i.e., 9.7 TWh/year).
• The annual Scope 2 GHG emissions of hospitals in FY2019-20 were 7.7 million tonnes of CO2. (Scope 2 emissions are indirect emissions from purchased energy)
* Hospital-level energy intensities vary significantly between and within hospital typologies, influenced by factors such as end-use equipment and behavioral energy efficiency, air-conditioned areas, medical service levels, active use hours, climate zones, service outsourcing, and patient privacy.

The Indian healthcare sector relies heavily on diesel-based gensets for energy, which is a vulnerability to climate events. Access to uninterrupted energy is crucial for the health system’s sustainability and climate-smart healthcare under the Health Adaptation Plan. It is also a vital component of the proposed framework for green (environmentally sustainable) and climate-resilient or climate-smart healthcare under the NPCCHH.

 

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COP28, Fossil fuels, Energy transition

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COP28: Phasing Out or Phasing Down Fossil Fuels?

Renjini Liza Varghese

The annual event, – Conference of Parties COP28, no doubt, will be a critical crossroads for energy transition.

Starting tomorrow (30 November to 12 December), the signatories will assemble in Dubai to deliberate and conclude on substantial action to mitigate climate change. The Indian Prime Minister, Mr. Narendra Modi, also will be present during the first 2 days. It may be business as usual for those who are offering their first-ever review. The decibel levels may rise when the bossiest polluters (China, US) are asked to commit more to the loss and damage fund.

I believe that the debate on phasing out versus phasing down fossil fuels taking center stage at COP 28 this year. While the decision to completely phase out will be a bold and decisive step towards a cleaner, energy future, phasing down offers a more pragmatic approach, particularly for developing nations like India.

It is a fact that like many other developing countries, India’s energy landscape is currently dominated by fossil fuels, with coal alone accounting for 49% of electricity generation. The country’s ambitious renewable energy targets, aiming for 500 GW of installed capacity by 2030, are commendable. However, the sheer scale of India’s energy demand necessitates a gradual transition, which balances environmental protection and economic growth.

According to me, phasing down fossil fuels, rather than an abrupt phase-out approach, presents a more viable strategy. This approach allows the country to utilize its existing fossil fuel infrastructure while simultaneously investing in cleaner energy sources like renewables and hydrogen. The gradual reduction in fossil fuel reliance ensures a smooth transition without jeopardizing energy security.

The United Nations report, projecting continued fossil fuel production growth until 2030 for coal and 2050 for oil and gas, further supports the phasing-down approach. This projection highlights the need for a realistic transition timeline that aligns with global fossil fuel production trends.

Assessing countries’ climate mitigation goals only after fossil fuel production peaks makes sense. Because, by that time, nations will have a clearer roadmap for their energy transition and will have developed sustainable solutions like hydrogen to meet rising energy demands.

That is why I expect COP28 to delve into the phasing out versus phasing down debate, with discussions on stocktaking, commitments from major emitters like China and the US, and the loss and damage fund. I also see the anti-ESG lobbying taking center stage during this year. However, the real impetus for actionable change is likely to emerge from the phasing out versus phasing down conversations.

Key Takeaways:

Phasing down fossil fuels offers a more pragmatic approach to energy transition for developing countries like India.

India’s energy needs necessitate a gradual transition that balances environmental sustainability with economic growth.

Assessing climate mitigation goals after fossil fuel production peaks provides a more realistic timeline.

COP28 is expected to be a critical turning point in the global energy transition.

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Water scarcity, UNICEF, COP28

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Severe Water Scarcity Impacts 739 Million Children

WriteCanvas News

The climate-changed world – with dwindling water supply and inadequate water services has impacted 739 million children globally. A new UNICEF report says that severe water scarcity is altering their mental and physical health.

One in three children or 739 million worldwide already live in areas exposed to high or very high water scarcity. Climate change is threatening to make this worse, according to the report.

Crux:

The report titled: The Climate Changed Child – released ahead of COP28, highlights the threat to children due to water vulnerability.

It analyses the impacts of three tiers of water security globally – severe water scarcity, water vulnerability, and water stress. It reinforces that inadequate drinking water and sanitation services are putting children at even greater risk.

The report is a supplement to the UNICEF’s Children’s Climate Risk (2021). Authors caution the impacts of the climate crisis include diseases, air pollution, and extreme weather events such as floods and droughts.

The environment in which children grow significantly influences their brain, lungs, immune system, and other vital organs from conception to adulthood. For instance, children are more susceptible than adults to the negative effects of air pollution. They often breathe more quickly than adults do, and they still have developing brains, lungs, and other organs.

Key findings:

• The greatest share of children exposed are in the Middle East, North Africa, and South Asia. Children live in places with limited water resources and high levels of seasonal and interannual variability, groundwater table decline, or drought risk
• The most affected children live in low- and middle-income countries in sub-Saharan Africa, Central and Southern Asia, and Eastern and South-Eastern Asia
• In 2022, 436 million children were living in areas facing extreme water vulnerability. Some of the most impacted countries include Niger, Jordan, Burkina Faso, Yemen, Chad, and Namibia, where 8 out of 10 children are exposed.
• Climate change is also leading to increased water stress. By 2050, 35 million more children are projected to be exposed to high or very high levels of water stress, with the Middle East North Africa, and South Asia currently facing the biggest shifts
• This risk to lives, health, and well-being is one of the key drivers of deaths among children under 5 from preventable diseases
• Despite their vulnerability, children have been either ignored or largely disregarded in discussions about climate change. For example, only 2.4 percent of climate finance from key multilateral climate funds support projects that incorporate child-responsive activities

What is needed?

At COP28, UNICEF is calling on world leaders and the international community to take critical steps with and for children to secure a liveable planet. These include:

i. Investment in safe drinking water and sanitation services essential as the first line of defense
ii. Elevating children within the final COP28 Cover Decision and convening an expert dialogue on children and climate change
iii. Embedding children and intergeneration equity in the Global Stocktake (GST)
iv. Including children and climate-resilient essential services within the final decision on the Global Goal for Adaptation (GGA)
v. Ensuring the Loss and Damage Fund and funding arrangements are child-responsive with child rights embedded in the fund’s governance and decision-making process.

Beyond COP28, UNICEF is calling on parties to take action to protect the lives, health, and well-being of children – including by adapting essential social services, empowering every child to be a champion for the environment, and fulfilling international sustainability and climate change agreements including rapidly reducing emissions.

UNICEF Advocates:

“The consequences of climate change are devastating for children,” said UNICEF Executive Director Catherine Russell. “Their bodies and minds are uniquely vulnerable to polluted air, poor nutrition, and extreme heat. Not only is their world-changing – with water sources drying up and terrifying weather events becoming stronger and more frequent – so too is their well-being as climate change affects their mental and physical health. Children are demanding change, but their needs are far too often relegated to the sidelines.”

“Children and young people have consistently made urgent calls for their voices to be heard on the climate crisis, but they have almost no formal role in climate policy and decision-making. They are rarely considered in existing climate adaptation, mitigation, or finance plans and actions,” Russell said. “It is our collective responsibility to put every child at the center of urgent global climate action.”

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Telangana Unveils Zero-Emission Truck Accelerator

WriteCanvas News

The Telangana Mobility Valley (TMV) under the Telangana Government has introduced the Telangana ZET Accelerator, a collaborative platform aimed at hosting pilot projects for zero-emission trucking by industry players.

The initiative aims to launch ZET pilot projects, establish ZET corridors through public-private collaboration, and pave the way for a substantial shift towards zero-emission trucks in the market, fostering innovation and overcoming barriers. The Accelerator, supported by technical expertise from RMI (Rocky Mountain Institute), has gained endorsement from a consortium of stakeholders, including OEMs, charging infrastructure providers, industry leaders, logistics firms, truck operators, and e-commerce giants. This move is poised to revolutionize the freight transportation sector, aligning it with sustainability and net-zero benchmarks.

To mark the launch, the Department hosted the Telangana ZET Accelerator Stakeholder Convening, bringing together esteemed stakeholders from the government and industry sectors. Mr. Jayesh Ranjan, Principal Secretary of the Industries & Commerce and Information Technology Departments, Government of Telangana, graced the event as the chief guest. He highlighted the state’s commitment to spearheading emission-free transport, announcing plans to identify a lighthouse corridor and collaborate with industry leaders for ZET deployment and associated infrastructure along the corridor.

Mr. Ranjan expressed optimism about the Accelerator serving as a pivotal platform for strong partnerships between industry players and the government, accelerating ZET deployment in the state. Mr. Gopalakrishnan VC, Director, Automotive and EV, Telangana State Industrial Infrastructure Corporation Ltd., emphasized Telangana’s strategic role in shaping the future of zero-emission trucking. He stated that the Telangana ZET Accelerator Stakeholder Convening marks a significant step toward realizing the state’s vision for sustainable and eco-friendly transportation solutions. The event marks the starting point in Telangana’s journey towards a more sustainable future with zero-emission trucks.

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How will the energy scenario look like in 2030?

WriteCanvas News

The energy scenario is set to change significantly by 2030, based on today’s policy settings, says a new IEA WEO 2023 report.

By 2030, the global energy scenario will undergo significant change, according to the International Energy Agency’s World Energy Outlook (WEO) 2023 report.

Ongoing major shifts, the rise of clean energy technologies, and economic changes are causing a surge in global demand for coal, oil, and natural gas. For example, the rapid advancement of solar, wind, electric cars, and heat pumps is significantly altering the way we power our homes, factories, and vehicles. Electric cars are expected to reach nearly 10 times the number on the road, the report notes.

The India picture:

According to WEO 2023, India is expected to meet its 2030 target of having half of its electricity capacity be non-fossil well before the end of the decade.

By 2030, India’s industry will produce 30% less CO2, and 60% of two- and three-wheelers will be electric. Progress is also being made towards universal access to modern energy, with 670 million people gaining access to modern cooking fuels and 500 million to electricity.

By 2030, India’s industry will produce 30% less carbon dioxide (CO2) than it does now, and passenger cars will emit 25%  less CO2 per kilometre on average. In 2030, about 60% of two- and three-wheelers sold will be electric—a ten-fold increase from the current percentage.

Global watch:
Scenario analysis:

The global population is expected to grow by 1.7 billion by 2050. Asia and Africa will be the largest sources of energy demand growth. Emerging and developing economies can achieve national energy and climate targets by implementing clean electrification, efficiency improvements, and transitioning to lower- and zero-carbon fuels.

By 2030, Indonesia’s renewable energy share of the country’s power generation will have doubled to over 35%. By the end of the decade, biofuels in Brazil will account for 40% of road transport fuel demand, up from 25% currently. In order to meet a variety of national energy and climate targets, sub-Saharan Africa must rely on renewable energy sources for 85% of newly constructed power plants by 2030.

By 2030, 670 million people will have access to modern cooking fuels and 500 million to electricity, marking significant progress towards universal energy access.

The global energy supply’s fossil fuel share is predicted to decrease from 80% to 73% by 2030. However, global energy-related carbon dioxide (CO2) emissions will peak by 2025.

5 pillars for a global strategy:

The WEO-2023 proposes a global strategy for getting the world on track by 2030 that consists of five key pillars, which can also provide the basis for a successful COP28 climate change conference.

  1. tripling global renewable capacity;
  2. doubling the rate of energy efficiency improvements;
  3. slashing methane emissions from fossil fuel operations by 75%;
  4. innovative, large-scale financing mechanisms to triple clean energy investments in emerging and developing economies;
  5. Measures to ensure an orderly decline in the use of fossil fuels, including an end to new approvals of unabated coal-fired power plants
Geopolitics, challenges, and impact:

The current high demand for fossil fuels is expected to hinder the Paris Agreement’s goal of limiting global temperature rise to 1.5°C. The energy system, designed for a colder world with fewer extreme weather events, is at risk of weakening due to increased heat records. The current policy configurations have significantly increased clean energy production, but the consequences of doing nothing could be catastrophic.

WEO-2023 explores energy security challenges in the Middle East, exacerbated by geopolitical tensions and the global energy crisis, aggravated by inflation and high borrowing costs. However, new LNG projects set to commence in 2025 are expected to increase capacity by over 250 billion cubic meters annually by 2030. These will account for nearly 45% of the world’s current LNG supply.

The increase in gas capacity may alleviate price and supply concerns. But it may also lead to a glut due to slowed global gas demand growth since 2010.  Russia will thus have very little opportunity to increase the size of its clientele. By 2030, its proportion of gas traded internationally, which was 30% in 2021, is expected to decrease to half.

WEO-2023 also examines one significant variable for the energy markets in the upcoming years—China. China, a major player in global energy trends, is experiencing significant changes due to its slowing economy and structural changes.  Its energy consumption is predicted to peak in the mid-2020s, with fossil fuel demand and emissions expected to decrease as clean energy growth accelerates.

The solar story:

The WEO predicts strong growth in solar PV this decade, with renewables contributing 80% of new power generation capacity by 2030.

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Turning the green tide

Renjini Liza Varghese

I grew up listening to stories of hardships my grandparents, parents and others in their generation faced for food during World War II, especially in 1943-44.

What was more inspiring was their narratives for survival. Each tale resonated with changing times and changing patterns of cultivation. I vividly recall my father speaking about how the community protected the local produce. Moreover, they also adapted to the new changes and added a newer variety of crops to the farm.

Like them, many framers across the country swiftly learned how to produce more regional indigenous crops, including millets. The milk co-operative movement (Amul) led by Mr Verghese Kurien in Gujarat and the Green Revolution led by Dr MS Swaminathan with the support of favourable policies enabled India to walk the long path to self-sufficiency.

Cut to today. According to the UN, India’s announcement to prohibit rice exports can trigger a global food crisis. The numbers say it all: India stands tall as the world’s largest rice exporter, accounting for 40% of international trade by volume — 22m tonnes. The country exported rice to more than 140 countries in 2022. That is a testimony that Indians have mastered the art of food security in the past 7 to 8 decades.

All the same, the global picture, including in India, is gloomy. The hard reality is that one-third of the total food produced globally is wasted, according to the United Nations data. Food waste is in multilayers, starting from waste during harvesting.

Significant reasons for food waste:
Turning the green tide  

Turning the green tide

  • Disconnect between the end customer and producer resulting in overproduction
  • Procurement hurdles
  • Insufficient storage
  • Inefficient packing
  • Cool chain inadequacy
  • Wastage during transportation
  • Inefficient supply chain
  • Gaps in last-mile delivery

 

 

Additionally, three more factors contribute to the waste. These are:

  1. Unplanned hoarding
  2. Wastage during cooking
  3. Delay in consumption

As per a report released by Economist Impact and supported by Corteva Agriscience, titled ‘Global Food Security Index,’ India ranked 68th out of 113 countries in 2022; in Asia-Pacific, it ranked 14th among 23 countries. “Its performance across all the index’s four pillars is generally consistent, but its score on the availability pillar—62.3—is the highest. The country’s weakest performance is in the Sustainability and Adaptation pillar, in which the country scored 51.2. India’s performance suggests that the food security environment in the country is particularly under threat from climate-change risks. The country needs to better manage these negative impacts on its food security by improving political commitment to adaptation, managing eutrophication in its oceans, rivers and lakes; and addressing the risks associated with the quality and quantity of water available for agriculture.

As per an earlier report published by the United Nations Environment Programme ‘Food Waste Index Report 2021’, 50 kg of food is thrown away per person every year in Indian homes annually.

Wasted food has far-reaching effects, both nationally and globally. It adds to the landfill, no doubt. It is the most significant component of the municipal waste anywhere in the world. 95% of discarded food or waste reaches landfills. The numbers are alarming for the US as well. Up to 40% of all food produced in the US goes uneaten.

How can we reduce food waste?

Perishables contribute a higher percentage in the food value chain. And it is imperative that the focus has to be on the supply chain to reduce food wastage. The maximum wastage, as per different studies, is during transportation. Which, if tackled, can tremendously bring down the wasted food percentage at the global level.

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