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How to Repair the Planet? One Answer Might Be Hiding in Plain Sight. (New York Times)

Yes, yes and another triple yes to this premise of this article: we can address the various global crises facing us by looking at them "holistically" rather than as separate silos. I've been harping on this since I started this blog: deal with the "traditional" environmental issues, such as the collapse of biodiversity, properly, and simultaneously we might also be dealing with the newer and evolving climate crisis issues. All part of one, instead of separate kingdoms that benefit academia rather than the rest of us.

Excerpt from this New York Times story:

Sometimes, human needs can make problems like climate change and biodiversity collapse seem insurmountable. The world still relies on fossil fuels that are dangerously heating the planet. People need to eat, but agriculture is a top driver of biodiversity loss.

But what if we’re looking at those problems the wrong way? What if we tackled them as a whole, instead of individually?

A landmark assessment, commissioned by 147 countries and made public on Tuesday, offers the most comprehensive answer to date, examining the sometimes dizzying interconnections among biodiversity, climate change, food, water and health.

“Our current approaches to dealing with these crises have tended to be fragmented or siloed,” said Paula Harrison, a co-chair of the assessment and an environmental scientist who focuses on land and water modeling at the UK Center for Ecology & Hydrology, a research organization. “That’s led to inefficiencies and has often been counterproductive.”

The report, by the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services, an independent panel that advises governments on biodiversity issues, focuses heavily on solutions. It includes scores of potential interventions along with their cascading effects. For example, the authors note that efforts like incorporating prairie strips, areas of native vegetation amid crop rows, or strategically locating trees on farmland can help with biodiversity, food production, human well-being, water quality and climate change all at once.

Not all situations will have multiple wins. Often, negative consequences are unavoidable. But people should be aware of the trade-offs and make them deliberately, from national governments all the way to local communities, the authors said.

“Right now, we don’t take account of a lot of the trade-offs,” said Pamela McElwee, also a co-chair of the assessment and a professor of human ecology at Rutgers University. “And so, they get passed on to somebody else.”

Overlooked costs to biodiversity, climate, water and health from the fossil fuel, agriculture and fisheries sectors were estimated at $10 trillion to $25 trillion per year. Negative health consequences were especially costly, Dr. McElwee said. For instance, she pointed to the nine million people a year who die from air pollution, and the rise in obesity and diabetes because of unhealthy diets that also harm biodiversity and contribute to climate change.

Nature-inspired solar lasers could sustainably power space missions

International scientists, including a team from Heriot-Watt University, has announced plans to develop a revolutionary new way of harvesting solar energy in space.

The new technology would directly convert sunlight into laser beams, facilitating the transmission of power over vast distances, such as between satellites, from satellites to lunar bases, or even back to Earth. The approach is inspired by the way bacteria and other plants and organisms convert light energy into chemical energy—a process known as photosynthesis. Repurposing natural photosynthetic structures from nature will form a key component in the new laser technology.

If successful, their innovative technology could help global space agencies to power future endeavors such as lunar bases or missions to Mars, as well as open new pathways for terrestrial wireless power transmission and sustainable energy solutions globally.

The APACE project brings together researchers from the U.K., Italy, Germany and Poland to create the new type of solar-powered lasers, which will provide reliable, efficient power for the growing number of satellites and future space missions.

The system will repurpose light harvesting antennas of certain photosynthetic bacteria, which are highly efficient at absorbing ambient solar light and channeling its energy to a desired target location as part of their photosynthetic cycle.

The team plans to realize their idea under laboratory conditions first, before testing and refining its suitability for deployment into the space environment.

The researchers will begin by extracting and studying the natural light-harvesting machinery from specific types of bacteria that have evolved to survive in extremely low light conditions. These bacteria have specialized molecular antenna structures that can capture and channel almost every photon of light they receive—making them nature's most efficient solar collectors.

In parallel, the team will develop artificial versions of these structures and new laser materials that can work with both natural and artificial light-harvesters. These components will then be combined into a new type of laser material and tested in increasingly larger systems.

Unlike conventional semiconductor solar panels, which convert sunlight into electricity, their bio-inspired system builds on a sustainable organic platform with the potential for replication in space. It would then allow for the direct distribution of power without relying on an electric intermediary.

Professor Erik Gauger from the Institute of Photonics and Quantum Sciences at Heriot-Watt University is leading the theoretical modeling aspects of the project.

He explains, "Sustainable generation of power in space, without relying on perishable components sent from Earth represents a big challenge. Yet, living organisms are experts at being self-sufficient and harnessing self-assembly. Our project not only takes biological inspiration but goes one step beyond by piggybacking on functionality that already exists in the photosynthetic machinery of bacteria to achieve a breakthrough in space power.

"Our APACE project aims to create a new type of laser powered by sunlight. Regular sunlight is usually too weak to power a laser directly, but these special bacteria are incredibly efficient at collecting and channeling sunlight through their intricately designed light harvesting structures, which can effectively amplify the energy flux from sunlight to the reaction center by several orders of magnitude. Our project will make use of this level of amplification to convert sunlight into a laser beam without relying on electrical components.

"We already know it is possible to grow bacteria in space, for example through studies on the International Space Station. Some tough bacteria have even survived exposure to open space! If our new technology can be built and used on space stations, it could help to generate power locally and even offer a route to sending power to satellites or back to Earth using infrared laser beams.

"This technology has the potential to revolutionize how we power space operations, making exploration more sustainable while also advancing clean energy technology here on Earth. All major space agencies have lunar or Mars missions in their plans and we hope to help power them."

The research team expects to have its first prototype ready for testing within three years.

Rajasthan MSME Policy 2024: A New Era for Entrepreneurs by Col Rajyavardhan Rathore

In a landmark move to empower small businesses and foster economic growth, the Rajasthan MSME Policy 2024 has been introduced under the guidance of Colonel Rajyavardhan Rathore. This policy aims to position Rajasthan as a leader in the Micro, Small, and Medium Enterprises (MSME) sector by providing robust support, financial incentives, and a conducive ecosystem for entrepreneurs.

The Importance of MSMEs in Rajasthan

MSMEs are the backbone of Rajasthan’s economy, contributing significantly to employment and GDP. With their presence in sectors like handicrafts, textiles, agriculture, and technology, MSMEs have immense potential to drive growth and innovation. The Rajasthan MSME Policy 2024 seeks to address challenges faced by small businesses and unlock their full potential.

Vision of Col Rajyavardhan Rathore

Col Rajyavardhan Rathore envisions MSMEs as engines of Rajasthan’s economic progress. Speaking at the launch, he remarked: “MSMEs are not just businesses; they are dreams of hardworking individuals. This policy is a promise to support their aspirations and make Rajasthan a hub for entrepreneurial excellence.”

Key Objectives of the Rajasthan MSME Policy 2024

Economic Empowerment: Strengthen the MSME sector to boost Rajasthan’s GDP.

Employment Generation: Create sustainable jobs across urban and rural areas.

Ease of Doing Business: Simplify processes and remove bureaucratic hurdles.

Skill Development: Equip entrepreneurs and workers with the latest skills.

Sustainability: Promote green practices and energy-efficient solutions.

Highlights of the Rajasthan MSME Policy 2024

1. Financial Support

Subsidies and Incentives: Up to 50% subsidy on capital investment for new enterprises.

Low-Interest Loans: Special credit schemes through state-backed financial institutions.

Tax Exemptions: Relaxation in GST and other state taxes for a specified period.

2. Infrastructure Development

Industrial Clusters: Development of MSME-dedicated zones in key cities like Jaipur, Udaipur, and Jodhpur.

Common Facility Centers (CFCs): Shared spaces with advanced tools and technology.

Digital Infrastructure: High-speed internet and IT support for MSMEs.

3. Skill Training and Capacity Building

Partnerships with educational institutions to introduce MSME-focused courses.

Regular workshops on digital marketing, export readiness, and quality control.

Mentorship Programs with industry experts to guide budding entrepreneurs.

4. Streamlining Processes

Single-Window Clearance: Speedy approvals for setting up businesses.

Simplified Regulations: Reduction in compliance requirements for small enterprises.

Digital Portals: Online systems for registrations, tax filing, and grievance redressal.

5. Promoting Innovation

Research and Development Grants: Funding for MSMEs working on innovative products and solutions.

Technology Adoption: Subsidies for adopting automation and digital tools.

Startup Incubation Centers: Support for MSMEs transitioning into startups.

6. Export Promotion

Global Market Access: Partnerships with trade bodies for export opportunities.

Trade Fairs and Expos: Participation in national and international exhibitions.

Export Subsidies: Financial support for logistics and international marketing.

Sectors Targeted by the Policy

1. Handicrafts and Textiles

Strengthening Rajasthan’s traditional crafts through modern techniques and marketing support.

2. Agri-Based Industries

Encouraging food processing, organic farming, and value-added products.

3. Renewable Energy

Promoting MSMEs in solar panel manufacturing and other green technologies.

4. Technology and IT

Support for tech startups and MSMEs working in AI, software, and digital solutions.

Impact of the Rajasthan MSME Policy 2024

Economic Growth

An expected 30% rise in MSME contributions to the state GDP by 2026.

Increased revenue through exports and enhanced domestic production.

Job Creation

2 lakh new jobs to be created in urban and rural areas.

Empowerment of women and marginalized communities through focused programs.

Ease of Doing Business

Simplified processes to attract 5,000+ new MSME registrations annually.

Global Recognition

Enhanced visibility for Rajasthan’s MSMEs in international markets.

Col Rathore’s Commitment to MSMEs

Col Rajyavardhan Rathore has always championed policies that drive progress and innovation. His leadership in shaping the MSME Policy 2024 reflects his belief in the entrepreneurial spirit of Rajasthan.

In his words: “With this policy, we are not just supporting businesses; we are building dreams, livelihoods, and a prosperous Rajasthan.”

A Bright Future for MSMEs in Rajasthan

The Rajasthan MSME Policy 2024 is a game-changer for small businesses. By addressing key challenges and providing holistic support, it aims to transform the state into a hub of entrepreneurship and innovation. With Col Rajyavardhan Rathore’s vision and leadership, this policy is set to empower thousands of entrepreneurs and contribute significantly to Rajasthan’s economic growth.

economy of HAIQIN

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date: november 24, 2024

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The Economy of Haiqin

Currency

Haiqian (HQN):

The currency symbol, HQN, is recognized regionally for stability and is commonly pegged against the USD. With a favorable exchange rate of 1 HQN to 0.75 USD, the Haiqian serves as a benchmark for economic health in neighboring countries.

Digital Currency:

As a forward-thinking nation, Haiqin has integrated digital currency into daily life. Roughly 80% of transactions are conducted digitally, promoting a cashless economy and streamlining payment methods for both domestic and international trade.

Banking & Financial Inclusion:

A highly developed banking sector offers easy access to financial services through mobile banking, particularly aiding small businesses. Public investment in financial education is substantial, aimed at improving fiscal literacy among citizens.

Trade Relations

Exports

Agricultural Products:

Due to fertile land and a favorable climate, Haiqin exports high-quality agricultural products, particularly fruits, vegetables, and grains during Iktoia. Specialty items, such as exotic herbs and teas unique to Haiqin, have a growing global market. These products are particularly sought after during harvest seasons, aligning with major festivals like Iktoia.

Artisanal Crafts:

Renowned for handmade textiles, clothes, pottery, and jewelry, the craftsmanship of Haiqin is a cornerstone of cultural exports, with a significant sales boost during the Festival of Arts. 

Technology:

Leading the way in green energy, Haiqin exports solar panels, software, and sustainable tech solutions to several nations.

Imports

Raw Materials:

Haiqin imports metals, oil, and minerals essential to its manufacturing sectors.

Luxury Goods:

High-end fashion, imported automobiles, and gourmet foods are popular among the elite, highlighting Haiqin’s demand for imported luxury.

Wealth Distribution

Income Disparities:

While Haiqin as a whole is wealthy, income inequality is evident, with urban centers like Stellis holding the majority of economic wealth, while more rural areas face economic challenges. The wealthy class largely consists of business magnates, tech industry leaders, and high-ranking government officials.

Middle-Class Growth:

Urban centers, particularly Stellis, have seen a rise in middle-class citizens, contributing to consumer spending and economic diversification.

Regional Disparities:

While urban areas enjoy greater access to services and infrastructure, rural areas have fewer economic opportunities, relying heavily on agriculture and artisanal crafts.

--scripted out poverty <333

Taxes & Tithes

Income Tax:

A progressive income tax scales from 10% to 35%, ensuring that higher earners contribute more significantly. Revenues from taxes fund public services, healthcare, and social programs.

Property Tax:

Property taxes are assessed based on land value and are used to fund local infrastructure projects. 

Trade Taxes & Tariffs:

Sales taxes on goods and services, coupled with protective tariffs, help sustain local industries, particularly in agriculture and manufacturing. A national sales tax applies to consumer goods and services, with specific tariffs on imports to protect Haiqin’s domestic industries.

Corporate Tax Incentives:

To encourage growth in key sectors, the government offers tax breaks and incentives to companies in tech and renewable energy fields, helping drive innovation and economic diversification.

Major Industries

Technology:

The tech sector is a powerhouse, with a focus on sustainable solutions, AI, and renewable energy technology. Haiqin has invested heavily in research and development, becoming known for cutting-edge advancements that are exported worldwide.

Agriculture:

Haiqin’s agriculture not only supplies its people with fresh produce but also generates export income. Farming is closely tied to cultural festivals like Iktoia, with agriculture supported by governmental subsidies and modernized techniques.

Tourism:

Festivals and natural beauty attract a steady influx of tourists, making tourism a primary economic driver. Events such as the Iktoia harvest festival, Nera Day, and Lunar Fest draw visitors year-round. The government promotes eco-tourism, highlighting Haiqin’s forests, mountains, and coastal regions.

Employment & Labor

Diverse Job Market:

The Haiqin labor market is diverse, with jobs spanning agriculture, technology, tourism, and manufacturing. The tech sector alone has led to a surge in jobs, while seasonal agricultural work remains important for rural populations.

Labor Laws & Unions:

Labor unions are active and influential, protecting fair wages and working conditions. Seasonal labor opportunities peak during harvest and festival seasons, with temporary roles often filled by students and short-term workers.

Social Safety Nets:

Haiqin’s social safety nets include universal healthcare, unemployment benefits, and retirement funds. The government aims to prevent poverty, supporting citizens in need with housing assistance, job retraining, and social programs for the elderly and disabled.

Sustainability Initiatives

Green Policies:

With eco-friendly initiatives spanning multiple sectors, Haiqin leads in sustainable agriculture, renewable energy, and waste reduction programs.

Circular Economy:

Recycling and resource-efficient production are emphasized. Industries are incentivized to minimize waste, with taxes on high-pollution businesses encouraging green alternatives.

Environmental Partnerships:

Collaboration with environmental organizations has facilitated eco-tourism and green business practices, creating jobs focused on conservation and sustainable development.

Infrastructure and Transportation

Transportation Networks: Haiqin boasts a modernized transportation system, with high-speed railways connecting major cities, public electric buses, and bike-sharing programs in urban areas. The government has invested heavily in infrastructure to reduce congestion and support eco-friendly transport.

Energy Sector: Haiqin generates most of its energy from renewable sources, including solar, wind, and hydroelectric power. Its commitment to reducing carbon emissions has led to advanced green energy technologies, some of which are exported.

PV Inverters Market Set to Surge: Global Forecast 2024-2032 Predicts Growth from $12.9B to $47.44B

The PV inverters market Growth is experiencing robust growth, driven by the escalating demand for solar energy solutions globally. Estimated at USD 12.9 billion in 2023, the market is projected to surpass USD 47.44 billion by 2032, exhibiting a remarkable compound annual growth rate (CAGR) of 18.5% during the forecast period from 2024 to 2032. This surge is primarily attributed to the increasing focus on renewable energy adoption, climate change mitigation, and the growing shift towards decarbonization across industries.

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A key factor driving this growth is the variety of PV inverter types available, including central, string, and micro inverters, each designed to meet specific power requirements. Central PV inverters, typically used in large-scale solar farms, dominate the utilities sector, while string inverters are favored in both residential and commercial applications for their flexibility and ease of installation. Micro inverters, known for optimizing energy output at the panel level, are gaining traction in the residential sector, particularly in regions where rooftop solar systems are becoming more prevalent.

The market is also categorized by product type, including central, string, micro PV inverters, and others, each contributing significantly to the overall market size. Moreover, advancements in smart grid technology and energy storage systems are expected to boost the integration of PV inverters into energy management systems, improving grid stability and energy efficiency.

Another driving force is the segmentation by application, which covers residential, commercial & industrial, and utility sectors. The residential sector is witnessing rapid growth due to declining costs of solar panels and increased government incentives, while commercial and industrial applications are expanding as businesses seek cost-effective and sustainable energy sources. Utility-scale projects continue to be a major contributor, especially in regions with vast solar energy potential.

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In terms of connectivity, the market is divided into standalone and on-grid systems. On-grid PV inverters are prevalent in regions with well-established grid infrastructure, while standalone systems are gaining traction in remote areas and developing regions.

Geographically, the Asia-Pacific region is leading the market, driven by large-scale solar projects in countries like China, India, and Japan. North America and Europe are also significant players, fueled by government policies and incentives promoting renewable energy adoption. As more regions invest in solar infrastructure, the PV inverters market is expected to witness unprecedented growth.

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Top 10 Business Ideas That Will Make You Rich

In today's fast-paced and ever-evolving world, entrepreneurship offers countless opportunities to build wealth. Whether you're a seasoned entrepreneur or a budding innovator, exploring the right business idea can lead to significant financial success. Here are ten business ideas that have the potential to make you rich.

1. E-commerce Store

E-commerce continues to thrive, with online shopping becoming the norm for consumers. Launching an e-commerce store that caters to a niche market can be incredibly profitable. By offering unique, high-quality products, and leveraging digital marketing strategies, you can reach a global audience. Subscription boxes, eco-friendly products, or personalized items are examples of niches with high demand.

2. Digital Marketing Agency

As businesses shift towards online operations, the demand for digital marketing services has skyrocketed. Starting a digital marketing agency that specializes in SEO, social media management, content marketing, or pay-per-click advertising can be highly lucrative. Success in this field requires staying updated with the latest trends and delivering measurable results to clients.

3. App Development

The mobile app industry is booming, with millions of apps available on various platforms. If you have a background in coding or can collaborate with skilled developers, creating innovative apps can lead to substantial profits. Whether it's a gaming app, a productivity tool, or a social networking platform, a successful app can generate revenue through in-app purchases, ads, or subscriptions.

4. Real Estate Investment

Real estate has long been a proven way to build wealth. Investing in rental properties, flipping houses, or even starting a real estate development company can yield high returns. The key is to research markets thoroughly, understand property values, and manage your investments wisely. In addition to traditional real estate, consider emerging trends like vacation rentals and co-living spaces.

5. Health and Wellness Products

The health and wellness industry is experiencing rapid growth, driven by an increased focus on healthy living. Starting a business that offers health supplements, organic foods, fitness equipment, or wellness coaching can be very profitable. Consumers are willing to invest in products and services that promote a healthier lifestyle, making this sector a promising area for entrepreneurs.

6. Online Education and E-learning

The rise of remote work and online learning has created a massive demand for e-learning platforms and online courses. If you have expertise in a particular field, you can create and sell online courses, or develop a platform that connects educators with learners. This business model offers scalability and the potential for passive income, as courses can be sold repeatedly without additional production costs.

7. Renewable Energy Solutions

With the global push towards sustainability, businesses in the renewable energy sector are thriving. Starting a company that offers solar panel installation, energy-efficient appliances, or green building materials can be highly profitable. Governments and consumers are increasingly seeking eco-friendly solutions, making this an ideal time to enter the market.

8. Freelance Services Platform

The gig economy is expanding rapidly, with more people seeking freelance opportunities. Creating a platform that connects freelancers with clients in fields like graphic design, writing, programming, or virtual assistance can be a successful business venture. By charging a commission on transactions, you can build a profitable business while providing a valuable service.

9. Artificial Intelligence and Automation

AI and automation are transforming industries across the board. Starting a business that offers AI-driven solutions, such as chatbots, predictive analytics, or robotic process automation (RPA), can lead to significant wealth. Companies are eager to adopt AI technologies to streamline operations, reduce costs, and improve customer experiences, making this a high-demand area.

10. Subscription Box Service

Subscription box services have gained immense popularity, offering consumers curated products delivered to their doorsteps regularly. From beauty products to gourmet foods, subscription boxes cater to a wide range of interests. Starting a subscription box business allows for recurring revenue and customer loyalty, provided you offer unique and valuable products.

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Conclusion

These ten business ideas represent some of the most promising opportunities for building wealth in today's economy. While each requires a different level of expertise, investment, and commitment, the potential rewards are substantial. Success in any of these ventures will depend on thorough market research, innovative thinking, and relentless execution. By choosing the right idea and dedicating yourself to its growth, you can achieve significant financial success and long-term wealth. Click here to open other post.

I think this is where we learn the awful truth of the facility. So this should be fun.

Is it the sound of kidnapped humans being butchered? I bet it's the sound of kidnapped humans being butchered.

Hey! It's the sound of humans being butchered! What do ya know?

Gotta keep the city fed somehow, and homunculi go feral if they don't consume human meat.

Have you seen the people wandering the factory halls? You want that fate for Kurumi? Makoto's doing his best to give his homunculus brethren the best possible lives they can have!

...

Probably shouldn't have shut down homunculus research. The World's Smartest Homunculus might have been able to come up with a better solution if he put in the work at the lab. Maybe find a way to genetically engineer the defects out of the other homunculi or something.

So we come to the answer to Number One's Great Global Mystery. Why are people being kidnapped from around the globe and trafficked into Kanai Ward? For this. It's for exactly this.

OH OKAY IT'S NUMBER ONE DOING IT.

Right. Okay. That makes sense. Not like Makoto and Yomi have the bandwidth for globetrotting exploits.

The WDO solves crimes, apprehends criminals, and then brings them here to feed Kanai Ward. Because Makoto and the WDO have that pre-existing relationship, it makes sense that they'd be in direct cahoots like this.

Oh, and "World's Greatest Mind"? Guess we know who Makoto's a homunculus of, don't we? That certainly explains the weird moment earlier when Makoto was verbatim quoting the creed at Yuma's face to taunt him.

Why would Number One even send us here to investigate in the first place, if he and his homunculus were responsible for the Great Global Mystery to begin with? What was the fucking point!?

This all feels like an elaborate attempt to smuggle the Book of Death into Kanai Ward. Number One took the book out of the library. Number One presumably gave it to Yuma with the instructions needed to bond with Shinigami. Number One sent countless Master Detectives to their deaths to get Yuma past Yomi's murder-wall. Then Number Makoto took Yuma under his wing, used him to destroy Yomi, and then killed all the Master Detectives and brought him here.

One way or another, this is about the Book of Death. Number One never wanted this mystery solved. The Master Detectives died to bring Shinigami here. Makoto's feeding us clues so that we can create a Mystery Labyrinth from them. But what is the goal here?

Hey look, it's the Trolley Problem! Everyone's favorite moral philosophy question, ever since we all watched that one episode of The Good Place. Is it okay to sustain Aetheria Academy for a week by letting the kids eat Yomi Hellsmile?

I dunno. The homunculi of Kanai Ward certainly did nothing wrong. Their only crime is existing.

We should probably put some scientists on the task of finding a way to make their existence more sustainable. That would be the progressive agenda. But we're filthy capitalists so we're carving people into meat buns and patting ourselves on the back for finding a way to sell sanity to the undead at a profit.

Makoto's getting antsy. He wants us to Mystery Labyrinth so bad he can taste it.

Maybe....

It was established in Vivia's Mystery Labyrinth jaunt that Yuma brings only the last person to Coalesce with him into the Labyrinth. He coalesced with Fubuki's time-rewind to solve the panel room and Vivia's projection to investigate. But since Vivia was the most recent to Coalesce, he was the one invited into the Labyrinth.

If Makoto is Number One's homunculus then he must have a Forte, right? We don't know what Number One's Forte is. Which means we don't know what Makoto's Forte is.

Is it possible that Makoto managed to Coalesce with Yuma at some point? Maybe that's why he killed the Master Detectives. He wants Yuma to bring him into the Labyrinth, and doesn't want to risk someone else getting pulled instead.

His endgame requires him to enter the Mystery Labyrinth. That's what I think.

Do they make a Hallmark card for "Sorry you're a genetically-engineered immortal clone doomed to roam the earth forever as a regenerating zombie?"

How do you even begin to have that conversation?

The Climate Crisis

By Richard E. Hyman

Distinguished Visiting Professional and Adjunct Professor, Waide Center for Applied Ethics, Fairfield University

“The biggest threat to our future is thinking that someone else will lead, that someone else will solve the climate crisis.”

Last year, Fairfield University’s Waide Center for Applied Ethics sponsored a multidisciplinary faculty panel for a university-wide and community discussion about how their respective areas of study addresses issues of climate change and justice.

This event was part of the Worldwide Climate and Justice Education Week, a global initiative led by Bard College, promoting dialogue on climate and justice on campuses and in communities around the world. 

Too often climate conversations are restricted to sustainability and climate science programs. To truly solve the climate crisis, we need everyone who is concerned about climate change and our future to talk about climate, and to act: academics, activists, artists, businesses, community members, faith leaders, governments, innovators, nonprofits, students, writers and more. 

In 2023, 58,000 people in 61 countries participated in 285 events. Fairfield University was one of them, focused on the critical work ahead, and our shared resilient future. The thinking is that although we cannot stop today’s climate change, if we talk about it and take action, we can better deal with it, mitigate the impact, and importantly take measures to prevent it in the future. 

Making climate an event helps students understand that they can make a positive difference with their life’s work. By engaging students in creative, interdisciplinary ways, we can help them explore how climate applies to their respective areas of study and personal interests, so they can learn how to favorably impact climate solutions, both as students and in their careers or avocations.

The following is a selection from each professor’s comments, in the order in which they were presented. Science, business, mental health and ethics will be followed by my concluding remarks. 

Dr. Kraig Steffen, PhD, associate professor of Chemistry, framed the conversation with the statement that “sustainability is the defining challenge of our current age.” He reflected on an image of earth as a miniscule, fragile blue dot within a vast universe. 

Dr. Steffen noted the Intergovernmental Panel on Climate Change’s decade-over-decade, increasingly definitive language about the human influence on global climate change. In 2007, the panel said it “is very likely due to the observed increase in anthropocentric greenhouse gas concentrations”. In 2021: “…human activities, principally through emissions of greenhouse gases, have unequivocally caused global warming, with global surface temperature reaching 1.1°C above 1850–1900 in 2011–2020. Global greenhouse gas emissions have continued to increase, with unequal historical and ongoing contributions arising from unsustainable energy use, land use and land-use change, lifestyles and patterns of consumption and production across regions, between and within countries, and among individuals.” 

Dr. Steffen attributed humankind’s sluggish response to societal, commercial and political inertia.  He then offered some ways that we might respond, e.g., make informed choices, engage, vote and, instead of despairing, act.

Dr. Robert Nazarian, PhD, associate professor of Physics, commented that the first climate model in 1967 predicted a change in global mean temperature that is still consistent with the most recent climate models. 

Dr. Nazarian stated that within the scientific community, warming based on human emissions is a settled matter, and that attention is now on the study and ramifications of extremes such as heat waves and the frequency and severity of storms.

Dr. Nazarian mentioned that research being conducted at Fairfield University, using climate model output, has contributed to the scientific community’s understanding of changes in extreme precipitation. For example, this research has recently shown that if emissions continue unchecked, the Northeast U.S. may experience a four-to-five-fold increase in the frequency of the strongest storms. He added that it’s important for scientific research to consider climate data equity. Most studies consider developed regions and neglect developing regions, which are often the regions that receive the worst impacts of climate change. 

Dr. Noradeen Farlekas, PhD, CFA, assistant professor of the practice at Fairfield University’s Dolan School of Business, started with a question: Is business the problem or is business part of the solution to climate injustice…or both? Relative to this question, she posed another: Is it more impactful to divest from companies or invest for change?

Dr. Farlekas first focused on health inequity, referencing Harvard studies, which found  significant evidence that economically disadvantaged racial and ethnic minorities were suffering adverse health effects related to long-term exposure to air pollution, unhealthy housing and other social determinants. Indeed, unequal exposure is environmental injustice, contributing to educational, racial, income, wealth, and housing inequity.

Dr. Farlekas also spoke about the cause and impacts of two of the largest corporate-induced climate catastrophes: the British Petroleum Deepwater Horizon oil spill, and the Volkswagen emissions scandal.

The British Petroleum Deepwater Horizon oil spill was one of the largest environmental disasters in world history. In 2014, a U.S. District Court judge ruled that because of ethics and governance lapses involving gross negligence and reckless conduct, BP was primarily responsible for the spill. The disaster inflicted immense harm on the environment, public health, and the company, which paid almost $21 billion in fines, the largest corporate settlement in U.S. history.

Like the BP oil spill, the Volkswagen emissions scandal involved ethics and governance lapses. Volkswagen admitted to cheating on U.S. emissions tests by using a software designed to measure emissions in an inaccurate, company-favorable way. The engines emitted nitrogen oxide pollutants up to 40 times above what is allowed in the U.S. Another ethics and governance issue. The result: significant harmful health and environmental impacts. Volkswagen paid a settlement of more than $35 billion.

Dr. Farlekas suggested that while companies, governments, and policies still cause negative impacts, there is a way for positive change to occur. She encouraged, voting (local, state, federal) and noted that laws and policies have a direct impact on the actions of both private and public companies (what, where, and how companies can conduct business). 

She also mentioned that municipal bonds (state and local) are investable and can be the source of environmental and climate injustice—reminding the audience that it matters who is making decisions, for example the Flint water crisis.

Dr. Farlekas stated that another form of voting is at the corporate level, as proxy voting and shareholder proposals can influence corporate decisions, board composition, and transparency – issues that can influence workers’ rights, pay disparity, and a company’s direction. She provided two examples. First, in 1971, a coalition of faith-based investors filed a shareholder proposal requesting that General Motors (and later other companies) cease doing business in South Africa until apartheid was ended. The second example was how a small hedge fund, Engine No. 1, worked with the largest passive investment managers to change the composition of Exxon Mobil’s board in an effort to increase long-term shareholder value through a lower-carbon future.

Lastly, asset owners (for example, pension funds and endowment funds) can be part of the solution, particularly if they hire investment managers who incorporate analysis of environmental, social, and governance frameworks, and invest in ways that reduce the associated risks. Companies should consider all of their stakeholders and make decisions to create long-term shareholder value instead of focusing on short-term (i.e., quarterly) objectives.

Dr. Dilani Perera, PhD, professor, counselor education, addressed ecological grief, or climate grief, relatively new terms in the mental health field. This grief brings about fear of imminent, yet unknown loss, and apprehension about an unpredictable future. Although we can adapt to change, change often brings strong mental and emotional responses.

Grief is a natural human response to loss. But ecological grief may be unique. 

When you're grieving for something specific, whether a person, a dog, a lifestyle, it's already gone. Climate change is intangible, relentless and ubiquitous, and it is an ongoing process. It's not over yet—so you can't come to terms with it, and you don't know exactly what's going to happen. This uncertainty makes ecological grief different. 

When it comes to climate change, people tend to avoid speaking about their feelings. One reason is perhaps a fear of being judged. Fear combined with uncertainty leads to anxiety. 

Climate grief can manifest itself in many ways, including:

Relationship conflict, such as when partners have difficulty deciding whether to have children. 

Consumption choices, as when one struggles, wondering if something is a sustainable product. 

Trauma, if family has been directly affected by climate change.

Also, there are those who do not believe in climate change. This denial makes grieving more complicated and even confusing at times, and it can also bring a sense of loneliness.

Dr. Perera, mentioned groups who are likely to most deeply feel climate grief:

Land stewards, such as indigenous communities, people who make their living off the land, climate scientists and activists, and those who enjoy the outdoors.

Younger people, as opposed to older people, who have more time on earth remaining, and want to enjoy that time.

Solutions include reminding yourself that you are not alone. Other people feel similarly. The developmental model of grief indicates that you go through three stages. 

The first stage is "reacting," which you may already be doing. This is when you experience feelings. 

The second and third stages are "reconstructing" and "reorienting." These two stages are related to how you process the climate changes. 

Each person may need a different way to process, but feeling, talking, uniting, and acting are the broader categories of things to try. Finding other people who have similar concerns and feelings, and connecting with them, helps with isolation and loneliness. It also helps with the disenfranchisement one may feel due to the lack of cultural practices or family rituals for grieving this type of loss, and also the lack of social acknowledgement about ecological grief. 

Becoming more informed about the specifics of how climate change is likely to impact in the near future also helps to put things in perspective. 

If one has a religious orientation, faith is also a good place to talk, unite, and act. Non-religious spiritual practices can also help with grieving. Engaging in these practices with intentional focus on ecological grief may be helpful.

Finally, spending time in nature, appreciating, and connecting is important. Most people who lose a loved one regret not spending enough time with them. There is evidence that nature is good for your mental health. Nature is not only a source of anxiety, but also a source of strength for humans. She shows her ability to adapt, which is a lesson for all of us.

Dr. David Schmidt, PhD, associate professor and director of the Waide Center for Applied Ethics, noted that the problems of climate change include many ethics issues, and there is no shortage of ethical arguments about them. The arguments persist because they fail to persuade people or change their behavior. He said that one reason might be that ethics principles and theories are highly abstract and theoretical.  We grasp these principles and theories at an intellectual level, but they fail to move us at a deeper level. We are left unchanged and continue to act as we did before. If we want to actually make a difference, ethically, we need to shift our perspective to a relational ethic of care, meaning that we are not isolated individuals. Rather, we exist in webs of relationships with others, ranging from people or groups that we’re very close to, to more distant connections, to people across the globe. Our ethical duties of responsibility and care for others are grounded in these relationships.

The key point for ethics of climate change, is that we need to re-examine our understanding of our relationship to our planet. With the rise of industrialization, we came to view nature as an elaborate machine.  We developed an impersonal relationship with nature that made it easier to manipulate our environment without much regard for our impact on it. But it wasn’t always this way.  For long periods of human history, it was not uncommon for humans to view nature in kinship terms, sometimes perceiving the world as a nurturing mother. Dr. Schmidt cited professor and author Robin Wall Kimmerer’s book Braiding Sweetgrass, in which she writes, “Restoring land without restoring relationship is an empty exercise. It is relationship that will endure and relationship that will sustain the restored land.” Kimmerer observes, “It’s not just land that is broken, but more importantly, our relationship to land.”  Further, Kimmerer speaks of ��animacy,” expressing how sentient or alive the referent of a noun is. She writes:

“The animacy of the world is something we already know, but the language of animacy teeters on extinction-not just for Native peoples, but for everyone. Our toddlers speak of plants and animals as if they were people, extending to them self and intention and compassion—until we teach them not to. We quickly retrain them and make them forget. When we tell them that the tree is not a who, but an it, we make that maple an object; we put a barrier between us, absolving ourselves of moral responsibility and opening the door to exploitation. Saying it makes a living land into ‘natural resources.’ If a maple is an it, we can take up the chain saw. If a maple is a her, we think twice.” 

Dr. Schmidt said that many dismiss kinship terms for nature as mere poetry or pretty fiction, but that we need language that reawakens ancient feelings of closeness to the earth.  He thinks that the biggest ethics challenge today is to develop a relational ethic of care for the earth, that will not only persuade us about what is the right thing to do regarding climate change but also compel us to act.

Conclusion: In my Environmental Ethics class, we look at the local, national and global environment through an ethics lens. Students learn and think about topics they may have never been exposed to. Together, we contemplate what, if any, moral obligations we have to future generations and nature, including non-humans.  

Many topics relate to the United Nations Sustainable Development Goals (SDGs), and virtually every topic is impacted by climate change:

Conservation of natural resources and habitats

Biodiversity, species survival and extinction

Pollution of air, water and soil 

Sound, light and plastic pollution                                                                               

Vulnerable populations and mass migrations due to sea level rise, food supply and starvation

Indigenous peoples including island nations and Native Americans 

Government, politics and public policy

Business and technology solutions, including innovation related to renewable clean energy

Laudato Si, “Care for Our Common Home”

The objectives of the class include developing students’ ability to:

Understand, analyze and critically evaluate environmental matters through an ethics lens. By marrying the academic nomenclature and theories of ethics, with real-life dilemmas associated with climate change, students are stimulated to think in new ways.

Communicate one’s personal view and listen to other views. Students are challenged to think, and to communicate, both verbally and in writing. By articulating their feelings and new knowledge, as well as, importantly, the potential opposition’s position, they are being better equipped for civil discourse.  That is to say, students are being prepared to have respectful conversation aimed at fostering understanding and constructive communication, where individuals within a group share different perspectives. 

Fairfield students are smart, sincere, well-mannered and concerned. But their generation is also justifiably angry. Anger is a key driver of climate crisis engagement, particularly for collective action. When angered, rather than fearful or saddened, young people are more likely to see opportunities for action and engage with determination.

That is why the Waide Center sponsored participation in this 2023 global event and will do so again at the Dolan School of Business on April 4, 2024 at 7:00 p.m. For more information, please contact [email protected].

-----

Richard Hyman collaborates with the Dolan School of Business’ Entrepreneurship Center as a mentor for Fairfield StartUp. His career in business includes leadership positions at GE Capital, Verizon and Xerox, plus entrepreneurial ventures. Today he is Chairman of GreenIRR, Inc., a company founded by a Fairfield alumna, and focused on mitigating climate change. He also founded a nonprofit organization and public charity that fosters future leaders to protect the ocean. He authored FROGMEN, his personal account of diving aboard Jacques-Yves Cousteau’s ship Calypso. Richard is a public speaker, with keynotes including MIT Water. He led Connecticut’s delegation to the Blue Vision Summit in Washington D.C., joining ocean conservation leaders, scientists and explorers to discuss with Congress offshore oil drilling, ocean pollution, and coastal resilience. He collaborates on curriculum development and speaks to students worldwide on projects including SDG-focused climate action and innovation, a collaboration with Dr. Jane Goodall. A graduate of Furman University, he has also studied at Fairfield University, Georgetown and Yale. 

Choosing the Right Global Panel Research Solutions

Discover essential steps to select the ideal global panel research solutions, including defining objectives, assessing expertise, evaluating methodologies, ensuring data security, and leveraging trial projects for optimal results. This guide highlights critical considerations for informed decision-making.

1966: The Genesis of Solico Group

In 1966, Solico Group emerged onto the scene, catering to the flourishing construction industry in the UAE. The company's initial focus was on delivering cutting-edge Composite products, laying the groundwork for its subsequent global expansion and the introduction of groundbreaking solutions like Solico Tanks.

1984: Pioneering Water Storage Solutions

A watershed moment occurred in 1984 when Solico introduced a revolutionary water storage solution – hot-pressed GRP panel-type water tanks. By partnering with the esteemed Japanese brand Bridgestone, Solico swiftly captured market share, transforming conventional water storage practices towards cleaner and healthier alternatives. This strategic collaboration, coupled with a robust global marketing initiative, marked a paradigm shift in the industry.

2000: Innovation, Growth, and a New Manufacturing Hub

After years of innovation, commercial success, and expansion, Solico relocated to a state-of-the-art 220,000 sq ft manufacturing facility in Jebel Ali, Dubai, in 2000. This move facilitated an expansion of product offerings and processes, incorporating Polyurethane molding, SMC hot-press compression molding, and thermoforming. Solico earned acclaim as a supplier of premium OEM products to globally recognized brands.

2001: Diversification into Boat Manufacturing

In 2001, Solico diversified its portfolio by launching the boat business division ASIS. Leveraging expertise in fiber wet and pre-preg lay-up processes, this venture yielded successful products, including rigid inflatable boats for renowned brands like Zodiac, ASIS, and Ocean Craft Marine.

2003: Expanding Manufacturing Capacities

Rapid expansion led Solico to embark on the second phase of its manufacturing facility in 2003, significantly increasing production capacities to accommodate future projects.

2004: SWS Board Technology and Sports Manufacturing Leadership

The launch of SWS Board Technology in 2004 marked Solico's entry into the water sports business, specializing in compression molding and Polyurethane molding. The company played a pivotal role in designing and manufacturing OEM products for globally respected sports brands.

2012: Next-Generation GRP Panel-Type Water Tanks

In 2012, Solico introduced a hot-press SMC manufacturing plant for its advanced GRP panel-type water tanks. The brand Solico Tanks was officially launched, signaling a new chapter in the group's illustrious history.

2016: Golden Jubilee Celebration

In 2016, Solico Group celebrated its 50th anniversary, a testament to five decades of remarkable achievements. The company had become one of the world's most esteemed suppliers and OEM manufacturers of quality molded composite products, with a strong focus on the American and European markets.

2019: Third-Phase Facility Expansion

Solico Group initiated the third-phase expansion of its manufacturing facility in 2019, increasing it to an impressive 400,000 ft2. This expansion aimed to meet the escalating demand for its diverse range of products and services.

2020: Commitment to Sustainability

In 2020, Solico Group underscored its commitment to sustainability by installing solar panels on the roof of its Jebel Ali manufacturing facility. This initiative aimed to reduce the company's carbon footprint and align with eco-friendly practices.

2023: Advancements in Research and Development

Since the inception of Solico Tanks, continuous investments in research and development have expanded the product range and enhanced product effectiveness. The company now boasts the capability to design and manufacture 6-meter-high water tanks with varying seismic classes, ensuring secure water supplies in some of the world's most vulnerable regions.

Global Thin film Solar Cell Market Is Estimated To Witness High Growth Owing To Increasing Adoption of Renewable Energy Sources

The global Thin film Solar Cell Market is estimated to be valued at US$ 33.01 Bn in 2022 and is expected to exhibit a CAGR of 19.4% over the forecast period 2023-2030, as highlighted in a new report published by Coherent Market Insights. A) Market Overview: Thin film solar cells are made from semiconductor materials that convert sunlight into electrical energy. These solar cells offer various advantages such as flexibility, lightweight, and superior aesthetics compared to traditional solar panels. The need for clean and sustainable energy sources is driving the demand for thin film solar cells as they provide an efficient way to generate electricity from the sun. With the increasing focus on reducing carbon emissions and combating climate change, the demand for renewable energy sources like thin film solar cells is expected to witness significant growth. B) Market Key Trends: One key trend in the thin film solar cell market is the increasing investment in research and development activities to enhance the efficiency of these solar cells. Researchers and manufacturers are investing in developing new materials and technologies to improve the conversion efficiency of thin film solar cells. For example, Oxford Photovoltaics, one of the key players in the market, is developing perovskite-based solar cells that have shown promising results in terms of efficiency and cost-effectiveness. This trend is driving innovation in the market and is expected to lead to the commercialization of more efficient thin film solar cell products. C) PEST Analysis: Political: Governments around the world are implementing favorable policies and incentives to promote the adoption of renewable energy sources. This is creating a conducive environment for the growth of the thin film solar cell market. Economic: The declining cost of thin film solar cells, coupled with the increasing demand for clean energy, is driving the economic feasibility of these solar cells. This is attracting investments from both government and private entities. Social: The increasing awareness about the environmental impact of traditional energy sources is driving the social acceptance and demand for renewable energy solutions like thin film solar cells. Additionally, the aesthetics and design flexibility offered by these solar cells are appealing to consumers. Technological: Advances in thin film solar cell technologies are improving their efficiency and performance. New materials and manufacturing processes are being developed, leading to the commercialization of more efficient and cost-effective products. D) Key Takeaways: Paragraph 1: The Global Thin Film Solar Cell Market Demand is expected to witness high growth, exhibiting a CAGR of 19.4% over the forecast period, due to increasing adoption of renewable energy sources. The need for clean and sustainable energy solutions is driving the demand for thin film solar cells. Paragraph 2: The Asia Pacific region is expected to dominate the thin film solar cell market, with countries like China, India, and Japan leading the way in terms of installation and production capacity. The region's favorable government policies, abundant solar resources, and growing energy demand are contributing to its fast-paced growth in the market. Paragraph 3: Key players operating in the global thin film solar cell market are Ascent Solar Technologies, Inc., FIRST SOLAR, Kaneka Corporation, MiaSolé Hi-Tech Corp., and Oxford Photovoltaics. These companies are investing in research and development activities to improve the efficiency and performance of their thin film solar cell products. They are also focusing on strategic collaborations, partnerships, and mergers and acquisitions to expand their market presence.

Yesterday, I posted a summary of the study and report described in this Grist article. We get more details (if we're interested) here. Additionally, to me, the recommendations to proceed more holistically with the numerous global issues dealing with biodiversity and the climate are critically important. I've been repeating this mantra for several years, and will continue to do so. Deal with the environment = solve the climate crisis.

Excerpt from this story from Grist:

As global temperatures rise from the burning of fossil fuels, researchers and policymakers have proposed solutions like installing renewable energy, replacing gasoline-powered cars with electric ones, and developing technology to suck carbon out of the air. But these policies often address climate change in isolation — without regard for other pressing issues like a decline in biodiversity, the contamination of freshwater sources, and the pollution of agricultural soils. 

A new report released Tuesday by the United Nations’ expert panel on biodiversity makes the case for a different approach based on addressing the “nexus” between two or more out of five essential issue areas: climate change, biodiversity, food, human health, and water. Such an approach is not only more likely to help the world meet various U.N. targets on biodiversity, sustainable development, and climate mitigation; it’s also more cost-effective.

“We have to move decisions and actions beyond single-issue silos,” said Paula Harrison, a professor of land and water modeling at the U.K. Centre for Ecology and Hydrology and a co-chair of the report, in a statement. Other scientific reports have studied the interlinkages between two or three of these issues, but she told reporters on Tuesday that this latest report is the “most ambitious” to date.

The new report was the result of three years of work of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services, or IPBES, an expert body that’s analogous to the United Nations’ Intergovernmental Panel on Climate Change, which periodically assesses the state of the science on global warming.

The report centers on biodiversity — that’s the IPBES’s remit, after all — describing how the variety of life on Earth is “essential to our very existence.” But it goes out of its way to show how rapidly accelerating biodiversity loss is both contributing to and being exacerbated by other crises. Climate change, for instance, is making some habitats inhospitable to their erstwhile animal populations, while the loss of those populations can have impacts on freshwater availability and carbon storage. The five interlinking issues were selected by representatives of the 147 IPBES’s member countries.

Meanwhile, solutions that focus on just one issue may have detrimental effects on other elements. Pete Smith, a professor of soils and global change at the University of Aberdeen in the United Kingdom, gave the example of bioenergy with carbon capture and storage, or BECCS, a climate solution in which crops are grown to draw CO2 out of the air and then burned to generate energy. The resulting greenhouse gas emissions are captured and stored in rock formations, with the aim of removing them from the carbon cycle permanently.

The problem, Smith said, is that to implement this process on a large scale would require vast tracts of land that might otherwise have been used to grow food crops — so BECCS can unintentionally harm food security. Devoting land to single-variety crops can also use up lots of water and jeopardize biodiversity.

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