Climate Change - Science topic

Energy is at the heart of the climate challenge – and key to the solution. A large chunk of the greenhouse gases that blanket the Earth and trap the sun’s heat are generated through energy production, by burning fossil fuels to generate electricity and heat.

Fossil fuels, such as coal, oil and gas, are by far the largest contributor to global climate change, accounting for over 75 percent of global greenhouse gas emissions and nearly 90 percent of all carbon dioxide emissions. The science is clear: to avoid the worst impacts of climate change, emissions need to be reduced by almost half by 2030 and reach net-zero by 2050. To achieve this, we need to end our reliance on fossil fuels and invest in alternative sources of energy that are clean, accessible, affordable, sustainable, and reliable. Renewable energy sources – which are available in abundance all around us, provided by the sun, wind, water, waste, and heat from the Earth – are replenished by nature and emit little to no greenhouse gases or pollutants into the air. Fossil fuels still account for more than 80 percent of global energy production, but cleaner sources of energy are gaining ground. About 29 percent of electricity currently comes from renewable sources.

source: Renewable energy – powering a safer future | United Nations

International Day of Forests, which is celebrated annually on 21 March and was established by the UN General Assembly on 28 November 2012, is an opportunity to reflect on the systemic improvement of forest management in order to simultaneously preserve natural forest ecosystems, enhance the protection of biodiversity, the biosphere and the planet's climate. The celebration of the International Day of Forests aims to raise human awareness of the importance of forests for humans, including the crucial importance of forests in the context of protecting the planet's climate and biosphere. Taking into account the protection of the planet's climate, biosphere and biodiversity of natural ecosystems, it is urgently necessary to transform rabid forest management into rational, pro-climate and pro-environmental forest management. Forest management carried out within the framework of rational, pro-climate and pro-environmental forest management should be carried out in such a way that natural multi-species forest ecosystems are restored as much as possible instead of monocultures of homogeneous stands. When monocultures of forests based on a small number of tree species or even with the dominance of a single tree species are carried out, the incidence of various viral, fungal diseases and tree pests increases significantly. In addition, monocultures dominated by coniferous species are much more prone to the appearance and development of forest fires during the summer season. Tree monocultures are also unfavourable for the coexistence and development of many forest animal species that are found in natural, multi-species forest forests and primeval forests. Unfortunately, in terms of pseudo forest management, archaic forest management practices of monocultures based on a few tree species are still in use, which also causes a significant decline in the biodiversity of natural ecosystems. Accordingly, forest management should pursue rational, pro-climate, pro-environmental, biodiversity-sensitive forest management instead of commercial-oriented predatory management. In addition, forest management plans should respect the principles of nature conservation, protection of rare and endangered species of fauna and flora, protection against the felling of old trees, protection of the biodiversity of natural ecosystems, etc., which is also important in the context of the scale of CO2 absorption from the atmosphere, and is therefore an additional factor in limiting the scale of the ever-increasing greenhouse effect and the global warming process.

In view of the above, I address the following question to the esteemed community of scientists and researchers:

What do you think about this topic?

What is your opinion on this subject?

Please respond,

I invite you all to discuss,

Thank you very much,

Best regards,

Dariusz Prokopowicz

What are the reasons why it is so hard to completely degreenhouse the agricultural sector?

What is the yearly minimum level in the next decades in million tons in GHG to expect?

My PhD research is: Future research of food industry businesses in the context of climate change - what model do you suggest for me to implement?

Published in March 2023, the new report of the Intergovernmental Panel on Climate Change (IPCC) of UN scientists summarises the previous 6 IPCC reports produced and published between 2018 and 2022. These reports have involved a huge amount of scientific work, many thousands of scientific papers have been examined. Thousands of scientific reviews were produced, in which around 100,000 different aspects, comments etc. were included and reviewed. The analysis shows, among other things, that more than 99 per cent of the scientific papers support the thesis that human civilisation has led to a significant and accelerating increase in greenhouse gas emissions since the beginning of the first industrial revolution, which has become a key factor in the increasingly rapid process of global warming. Studies and estimates show that 2.5 trillion tonnes of CO2 have been released into the atmosphere since the mid-19th century, with half of this amount entering the atmosphere in the last three decades. It has been estimated that 3.5 billion people are at risk of serious negative impacts from the ongoing global warming process. According to the results of the study, the processes of green transformation of the economy should be significantly accelerated, including the rate of decarbonisation of economic processes. without this acceleration, the strategic goal of global climate policy established during the Paris Agreement in 2015, which is to limit the scale of the increase in the temperature of the planet's atmosphere to max. 1.5 degrees C since the beginning of the first industrial revolution, i.e. since the 17th century. In order for this goal to be realistically achievable, it is necessary to significantly accelerate the implementation of the green transformation of the economy, so as to halve CO2 emissions by 2030 at the latest and achieve total zero-emission of the economy by 2050. Unfortunately, the populist, opportunistic economic policies supported by the dirty combustion energy sector, including pseudo-climatic policies, continue to ignore the results of scientific research, including the UN IPCC reports on the role of man as regards the sources of the increasingly rapid process of global warming.

In view of the above, I address the following question to the esteemed community of scientists and researchers:

What do you think about this topic?

What is your opinion on this subject?

Please respond,

I invite you all to discuss,

Thank you very much,

Best wishes,

Dariusz Prokopowicz

The era of accelerated development of civilisation, significantly accelerating the scale of matter processing, production processes, the scale of environmental pollution, consumption of renewable and non-renewable natural resources, greenhouse gas emissions, deforestation, loss of biodiversity, etc. is referred to as the Anthropocene epoch, the Great Acceleration and Ecological Catastrophe has been taking place primarily since the mid-20th century. The term Anthropocene has not yet been introduced into the history of the development of planet Earth by geologists, but this is likely to happen soon. In the Anthropocene epoch, humans are increasingly transforming the biosphere into the technosphere. However, the scale of consumption of non-renewable raw materials is steadily increasing. The stocks of biodiverse forest areas that absorb part of the CO2 emitted by humans are continuing to decline rapidly. The supply of clean drinking water is also declining in increasingly large areas inhabited by humans. On the other hand, the scale of waste separation and recycling is still negligible and does not even compensate for a significant part of the consumption of raw materials and hardly reduces the level of waste pollution. The scale of the ongoing green transformation of the economy, including the implementation of a pro-environmental and pro-climate transformation of the classic growth, brown, linear economy of excess to a sustainable, green, zero-emission growth and closed loop economy is still too small to significantly reduce the level of greenhouse gas emissions, reduce the level of environmental pollution, implement reforestation processes and counteract the accelerating process of global warming is too small. It is essential to integrate a key aspect of the circular economy into the green transformation of the economy, i.e. the concept of zero growth consisting of zeroing out economic growth. This zeroing of economic growth should be implemented in a multi-faceted and multi-year perspective. It is not about zeroing economic growth in the short term (a few months) or in the medium term (a few years), i.e. as a periodic slowdown in economic growth occurring cyclically, within business cycles of several years during economic crises. It is about permanently resetting the rate of economic growth with the recognition of this issue as a key factor in a circular economy. Consequently, the economics of economic growth should be changed into the economics of zero growth, i.e. according to the concept of zero growth already known for several decades but not applied. An important issue of the Anthropocene epoch is also the rapidly progressing and human-induced extinction process of many species of flora and fauna referred to as the great 6th extinction in the history of the development of life on the planet. Consequently, the scale of the loss of biodiversity of the planet's natural ecosystems is progressing rapidly. Paradoxically, the great extinction of millions of species of flora and fauna was caused by just one species of living organisms - homo sapiens. Paradoxically, homo sapiens, which is responsible for this, is widely acknowledged to be the most intelligent species of life forms found on planet Earth. On the other hand, it is assumed that 99 per cent of the species that have lived on Earth over the last 3.5 billion years are extinct or have evolved into other species. But it is extremely difficult to estimate both the number of species and the duration of their existence for those of many millions of years ago and in the context of the evolutionary process. However, an extremely paradoxical and sad all at once process taking place in the Anthropocene epoch is that the acknowledged most intelligent single species of life form on Earth, which is homo sapiens, due to its robbery, combustion economy and rapid development of civilisation based on unlimited greed and disrespect for the surrounding nature, is causing the degradation of both the climate and the biosphere of the planet. Therefore, what has recently been described as a climate crisis should be studied, described, etc. in connection with the ecological crisis determined by the rapidly progressing process of deforestation, degradation of the biosphere, pollution of the natural environment, extinction of many species of flora and fauna life forms and, as a consequence, a rapidly decreasing level of biodiversity of the natural ecosystems of the planet Earth. Thus, the main negative effects of the development of a predatory, combustion-based civilisation and the key attributes of the Anthropocene epoch include not only a climate crisis but also an ecological crisis. The human-induced crises can thus be collectively referred to as the climate-ecological crisis. These crises should be considered, studied, analysed, described, etc. together because there are many relationships between them, synergistic processes, analogous and mutually influencing. By analogy, the process of a future climate catastrophe, which may already occur at the end of this 21st century if man does not manage to bring about a complete green transformation of the economy by 2030, should also be studied, analysed, projected, described, etc., in conjunction with the loss of biodiversity, the degradation of the biosphere, the extinction of species, etc., and thus the ecological catastrophe of the planet. By combining these issues, it is therefore possible and necessary to study, analyse, forecast and describe the future climatic-ecological catastrophe of the planet. If this catastrophe occurs in an extremely negative scenario then the Anthropocene epoch will be over.

In view of the above, I address the following question to the esteemed community of scientists and researchers:

What do you think about this?

What is your opinion on this subject?

Please respond,

I invite you all to discuss,

Thank you very much,

Warm regards,

Dariusz Prokopowicz

What are the adaptation strategies for climate change in agriculture India and can agricultural systems be adapted to reduce the impact of climate change?

I am seeking professional input on addressing climate change. In my work, I have seen decades of debate or hesitation of buy in by financial markets to actually address the main problem at play: the anthropogenic over-production of carbon dioxide and destruction of planetary carbon sinks. When we address this anthropogenic problem we say human-caused climate change or global warming or climate crisis. So far, despite saying we need to change, little action, especially in finance, takes place, especially on the scale needed. Often, the problem itself is too confusing and too large of a problem to really tackle a solution that is obvious and measurable.

My scope of work is looking at changing the common vernacular use of climate change to address the exact problem at hand: the anthropogenic over-production of dissolved CO2 gas into the atmosphere and destruction of planetary carbon sinks. The goal is to call that Global Carbon Crisis vs. what we have been calling it with confusion, climate change. After all, climate change has been an ongoing, natural process since the advent of polar ice caps.

The additional piece I am looking to address is the effective measurability which is already an infrastructure in place, called the Global Carbon Index. Essentially measuring a specific location CO2 production by contrast to overall global production at time of measurement.

What I am hoping to accomplish is a discussion if climate change to address this real problem should be used any more and why or why not. Also, to discover if fellow researchers feel this work is warranted to develop a systematic means to solve this difficult problem to assist buy in with financial incentives by using a defined unit of measure, the Global Carbon Index, to incentivize or discourage current production.

Hello everyone,

I am currently working as a sustainability data scientist, and I'm intending to conduct independent research at the intersection of climate change and machine learning. I am highly proficient in data analysis, visualization, time series forecasting, supervised machine learning and natural language processing. Furthermore, I have substantial knowledge in the domains of climate change, biodiversity and sustainability in general. Here are a few examples of my past work:

In case you are interested in collaborating, I encourage you to leave a comment or message me. Thanks you for taking the time to read this post!

Regards,

Giannis Tolios

Climate change has greatly impacted on Agricultural Production and Productivity in Sub-Saharan Africa. What can be done? (Mitigation and Adaption Practices)

Can I find someone who has information about the " 2nd Global Summit on Earth Science and Climate Change "(Adv. ESCC 2023)" conference ? Is it a real international conference? Has anyone ever participated in the first edition?

Scarcity is on the horizon. Where are the major conflicts between food and alcoholic beverages in conjunction with receding agricultural crop production?

Some volcanoes can send particles and water to the Mesosphere, as Tonga in 2022. The consequences are much more complicated than imagined

this paper is talking about it

Which beverages have the lowest carbon footprint per alcoholic intensity?

Including carbon leakage and downstream Scope 3.

How does agricultural impact the environment and modern agricultural practices helpful in reducing crop loss due to climate change?

Happy for controversial input on the topic of trade under climate change constraints as carbon markets are heterogenous and local.

What is the effect of climate change on agriculture and solutions and can agricultural systems be adapted to reduce the impact of climate change?

How does innovation solve climate change and strategies of climate action and role of technology innovation in combating climate change?

As entropies diffuse swiftly around the realm of expanding science and shifting circumstances in the plasma of time, new major risk factors appear. Others lost importance.

What may have been described as exogenous in the past, may have altered its properties significantly. Of the risks which can be measured or assessed qualitatively some may now be better identified and (re)classified.

Happy for novel independent and waning risk factors in the different branches of sciences. In nature speculative based on observations, so an informal Menti would be beneficial.

What methods does the agricultural sector use to adapt to climate change and ways to reduce emissions from agriculture?

How are climate change biodiversity and food security interlinked and do emerging technologies provide an opportunity for crop diversification?

my research subject is climate change and asthmatic disease

How can we accurately use pollen data to assess the impacts of climate change on ecosystems and biodiversity?

Research seems to be still ambiguous about the comfort zone of phytoplanktons. Which pH Value and temperature can phytoplanktons not adapt to?

What is the comfort zone for for zoonotic plankton?

How likely is an adaption to new tipping point zones that may function for both planktons?

What is the effect of climate change in agriculture farming and does climate affect agriculture and food supply in India?

CO2 is a key greenhouse gas that is produced in various types of combustion processes of carbon-based organic compounds. In order to reduce the scale of greenhouse gas emissions into the atmosphere and counteract the progressive process of global warming, it is necessary, among other things, to replace dirty energy based on the combustion of fossil fuels with clean, renewable and emission-free energy. In the process of greening the economy and decarbonising economic processes, it is important to reduce emissions to the atmosphere as quickly as possible, particularly of the highly greenhouse gas methane. Methane is produced in various processes, mainly by civilisation and, to a lesser extent, by natural processes in nature. An important pro-climatic solution would be not to emit CO2 into the atmosphere, but to bind it to a particular rock form or to inject it deep into the earth's crust in rock layers that will absorb and bind it chemically.

In view of the above, I address the following question to the esteemed community of scientists and researchers:

What is your opinion on this subject?

Please respond,

I invite you all to discuss,

Thank you very much,

Best regards,

Dariusz Prokopowicz

The non chemical methods of insect-pest Management is important to ago-ecosystem in strengthening resilience to climate change and agriculture sustainability because synthetic chemical insecticides pollute whole environment and also hazardous to all living thiongs.

Indiscriminate use of synthetic chemical insecticides and climate change create severe problems to beneficial insects and residual problem in food material. To maintain the sustainability in aggro-ecosystem and agriculture sustainability IPM is must.

How climate change affecting farming and food system and what is are climate risks in agriculture?

What is black carbon emissions and what is plastic made of and how is it harmful and causes of plastic pollution and does plastic affect climate change?

How does climate change affect food and water quality and does climate change affect water in agriculture?

What are the effect of pollution, salinity and climate change on the earth and its solution?

How can global climate change affect food security of India and impact of climate change on the future of biodiversity?

Would be interesting to learn more about the ecological impact. Are there any calculations for Scope 3?

Cherish your feedback.

Global warming refers to the rise in global temperatures due mainly to the increasing concentrations of greenhouse gases in the atmosphere. “Climate change” refers to the increasing changes in the measures of climate over a long period of time – including precipitation, temperature, and wind patterns?

Dear All,

I want to know any available article of statistical method to estimate - Human activities (Anthropogenic), which can accelerate snow melting. Please help to find any suitable method to any published article on this topic.

There are several human activities (GHGs emission, CO2 release, urbanization etc.), which resulted massive snow melting now a days. But to quantify the percentage (%) of share coming from Human activities, which causing SCA change.

Thanks in advance.

Abhishek Banerjee

Email - babai632@gmail.com

What is the importance of sustainable development and relationship between environmental sustainability and climate change?

Weather and climate conditions significantly impact the incidence and geographical distribution of several diseases. Extreme weather events such as heatwaves, floods, and droughts alter disease transmission ecologies and population vulnerability, thereby influencing risk for climate-sensitive disease. For example, increased temperature and rainfall induced by climate change and extreme weather events (such as storms or cyclones) are projected to increase the risk of malaria due to a greater geographical range for the Anopheles mosquito vector, a longer season, and enhanced vector breeding and disease transmission rates. Risk monitoring and mitigation strategies are therefore importance to preserve the health of populations.

Developing integrated surveillance can greatly enhance the capacity of health systems to prepare and adapt to climate-sensitive diseases. Integrated surveillance involves the integration of multiple surveillance systems (e.g. disease surveillance and weather surveillance) to improve the use of information for detecting, investigating and responding to public health threats. This integration of data, therefore, improves the flow of surveillance information throughout the health system.

Importantly, climate-informed surveillance can enhance the preparedness of health systems via early warning systems. Early warning systems aim to anticipate risks and trigger early warning responses to avoid or reduce impact and prepare for effective response. In the context of a rapidly changing environment and risk landscape, early warning systems are a valuable tool for building the adaptive capacity and climate-resilience of health systems.

The field of environmental communication teaches that how we communicate about our environment shapes not only what we think about it, but most importantly, what we do about it. Or as Greta Thunberg is the latest to remind us, what we don’t do about it.

How we frame our communication matters. Framing is positioning messages in ways that draw on audiences’ mental models to favour specific perspectives on an issue.

source: Climate Change and Health (who.int)

Climate change or climate crisis? It’s all in the framing | Canada's National Observer: News & Analysis

What are the major idiosyncratic pitfalls in the design of Carbon Markets?

Specific agency problems, such as the problem of how the government invests the proceeds of the economic windfall and sets the taxes?

What are the arbitrage mechanisms between the segments?

Which new class of risk has been introduced?

In different regions of the world, on different continents, more and more negative effects of the progressive process of global warming, of the ongoing climate crisis, etc. are appearing. These include, above all, the natural effects of the loss of biodiversity of natural ecosystems, the effects on water resources of increasingly severe and prolonged droughts, water shortages in certain areas, decreasing rainfall, the drying up of lakes and rivers, the barrenness of soils, the decline in agricultural productivity, etc. In recent years, there has also been an increase in the scale of the emergence of the global crisis. In recent years there has also been an increase in the occurrence of hot weather, increasingly high summer temperatures, the occurrence of forest fires, etc., the drying out of forest litter in forests, a decrease in the humidity of the microclimate in areas of forests, agricultural fields and urban agglomerations. In this way, the living conditions for people in increasingly large areas of land are steadily deteriorating year by year. More and more lakes are drying up. A significant proportion of the large lakes, too, have already reduced their surface area and the water reserves they have accumulated over thousands of years. For example, the surface area of the saline Great Lake in the state of Utah in the USA has decreased significantly over the last few years. This is a result of excessive water consumption (mainly by agriculture) and the ongoing process of global warming. There are many harmful, toxic heavy metal and other compounds on the bottom of this lake. It is a drainless lake, i.e. all waste and toxins settle in the lake. Already half of the lake bottom is above the water surface. The drying up of the lakes results in negative changes in the microclimate around the lake, the barrenness of the soils, the desertification of the surrounding natural environment, the possibility of sandstorms, a decrease in the moisture content of the soils around the lake, a decrease in the productivity of the soils in terms of their use for agricultural purposes. In addition to this, the negative effects of lake desiccation include the negative natural effects of a decrease in the level of biodiversity, both in terms of the lake biosphere and the natural ecosystems functioning in the vicinity of the desiccating lake. In view of the above, it is increasingly important to improve and increase the scale of protection of lakes from drying out and to create solutions to counteract or slow down this unfavourable process. These solutions include prohibiting the extraction of water from a drying-up lake for industrial, agricultural, municipal, etc. purposes. If the drying-up lake is located in a predominantly agricultural area, an important solution may be the creation of new deep wells, rainwater harvesting systems, a change in the agricultural model from unsustainable to sustainable ecological agriculture and, in areas close to the seas and oceans, the development of seawater desalination systems.

In view of the above, I address the following question to the esteemed community of scientists and researchers:

What is your opinion on this?

What is your opinion on this subject?

Please respond,

I invite you all to discuss,

Thank you very much,

Best wishes,

Dariusz Prokopowicz

As many research stated that the climate change affect the yield of crops in India. There may be the statistics of 1 percent increase in temperature there may be a 10 to 15 percent decrease in yield... But the India's food grain production keep on increasing year by year. how?

Is it true that climate change has not yet affected Indian agriculture production? If not what may be the hypothesis.

What are strategies and solutions that will help us to mitigate climate change and its effects and why is mitigation important in climate change?

Weather forecast has utmost importance in Aviation, Ship routing, safety measures, planning and designing of structures, urban areas, offshore maintenance, natural resources, coastal areas, Agriculture, pollutants management and in many more weather applications in world wide.

Globalisation processes are subject to and influenced by various factors and processes operating over the long term. In recent years, the main determinants of globalisation processes include the growth of transnational corporations, international financial institutions, changes in the scale of economic protectionism applied, changes in international foreign trade strategies, cross-border capital flows financing direct investment and speculative investment in other countries' capital markets, international trade wars, the global financial crisis of 2007-2009, the SARS-CoV-2 (Covid-19) coronavirus pandemic and the recession of the 2020 economy, the increasing importance of green economic transformation and sustainable economic development, the energy crisis of 2022 and the intensifying negative effects of the progressive climate crisis. It may be that in the future, due to the intensifying negative effects of the progressive global warming process, the developing climate crisis, the importance of international environmental policy and supranational coordination for the implementation of sustainable development goals may be modified by globalisation processes in the years ahead. As a result, the structure of key priorities and factors shaping globalisation processes may change in the future. The importance of environmental, climate and sustainability factors in globalisation processes may increase. If globalisation processes undergo such modifications then international economic sustainability may also grow in importance. The question then arises as to how the processes of economic globalisation should proceed in order for sustainable international economic development to be realised?

In view of the above, I address the following question to the esteemed community of scientists and researchers:

What do you think about it?

What is your opinion on this subject?

Please respond,

I invite you all to discuss,

Thank you very much,

Best regards,

Dariusz Prokopowicz

I need good research papers or sites or reports that can provide an overall picture on the state of climate change in Southern Africa and its impact on women in particular. Please help.

Which is the most promising, apart from forestry projects?

Will wide private adaption occur at a projected break-even monetary level?

Hi everyone,

I'm working on a research project on building performance under climate change scenarios. Does anyone know where can I get the future climate data in .EPW format for both typical and extreme weather files based on the IPCC climate change scenarios AR5 or AR6 in the US region?

Thanks a lot for your time,

With regards,

Ahmad Faiz Khan

What is nanotechnology for food agriculture and environment and its impact on sustainability and does nanotechnology help climate change?

Which specific tipping point manifested the first irreversibility?

Carbon has now entered our lives as both a component of climate change and a legal matter. In order to capture, certify and certify carbon, it must first be legally defined. This question was asked in order to make this legal definition.

Our planet has suffered damages, its capacity for recovery is being tested. Some ecosystems are fragile, and they can easily be triggered into collapse. What are the irreversible damages already done?

Hello, I would like to send the theories if they exist

Looking for well-researched studies about the demise of the climate change movement after the Carter presidency.

Contrary to Europe the movement seems to have died off more. Subjective impression. What were the drivers?

In which channel has the green movement morphed into? Gender? Equality?

Some pedagogic professors are advocates for an ecocentric pedagogic approach due to climate change.

Have schools already applied this concept somewhere on the planet? Is this the start of a different approach to humanism?

What are the downsides of ecocentric teachings vs anthropocentrism?

Sustainability Development Goals (SDGs) are designated to conserve the natural resources, biodiversity and to transfer a liveable ecosystem for the future generation by implementing various objectives in interdisciplinary fields.

However, are the world countries have achieved their desired success in implementing SDGs? If not, what are the prime reasons for those drawbacks?

What are the idiosyncratic reasons, why the high-speed railway track system is behind?

-Automotive sector lobby?

-Structural issues states, trust?

-Airline lobby?

-Railway investments crowded out?

-Cultural reasons?

-Costs?

-Fiscal?

-Income effect?

-Something else?

Green markets are markets where the environmental cost of pollution is positive and endogenous. Environmentally clean markets are markets where the environmentally cost of pollution is zero and endogenous. Which raises the question, would economic expansions towards environmentally clean markets have taken place had Adam Smith given us the theory of the perfect green market in 1776?

I think Yes, what do you think? Why?

Good links anybody?

Looking at youth movements apart from the Neoliberal high epoque, youth seems to have been mostly historically on the socialist side with traditional skepticism towards capitalism.

Have the current youth movements within the countries of the Western Hemisphere around topics such as climate change and equality issues reached a new quality dimension and may manifest a potential tipping point in market designs going forward?

Is there an equilibrium where potential animals living on the bottom such as crabs, and lobsters may survive? Is plankton really totally autonomous from coral reefs?

How much maritime life is gone without coral reefs in percentages term?

how global tectonic responsible for climate change ?

What are the most serious problems of civilization development that should be solved as soon as possible? What are the global problems for which research should be developed and solutions to these problems resolved in 2019 and in subsequent years?

One of such research problems, which should not be postponed for an indefinite future, is the need to develop environment-friendly sustainable economic development in order to slow down the adverse process of global warming.

With the warming of the Earth's climate, the risk of more dramatic climate cataclysms, including tsunamis, increases.

Tsunami may be a derivative of the global warming problem. Global warming generates an increase in climate disasters, including more cases of tsunamis.

But not only is the risk of more violent and more dramatic tsunamis rising. Also in recent years, there has been more other types of climate and natural climate catatics, such as droughts, rainstorms, tornadoes and weather anomalies.

At present, it should no longer be asked whether global warming generates an increase in natural disasters only what rate of growth will be recorded in the future? So many data, research centers confirms the progressing process of global warming, that the problem is unquestionable.

More and more data points to the growing risk of climate change, unfavorable for human and life on the Earth, increase of climate disasters, climatic and weather anomalies, which are the result of global warming, rising average annual temperature near the Earth's surface.

Now we should just ask: How can these adverse processes be counteracted? What ecological technologies, renewable energy sources, how to help natural environments, how to rebuild them, such as afforestation, to build natural ecosystems absorbing greenhouse gases?

How to develop ecological business ventures? How to create financing systems for this type of pro-ecological projects? How to dispel international cooperation in this matter? What actions should be taken to move towards the development of a new ecological green economy?

How to develop environmentally sustainable economic development to slow down the unfavorable warming of the Earth's climate?

Please reply. I invite you to the discussion

Hi frds,

Is there a study of the impact of hunter vs gatherer codes societies on sustainable climate aware lifestyles?

Open AI such as chatgpt increase speed in reviewing large volumes of papers and generating original content.

How is likely to affect students examinations especially on essays and term papers?

Looking for Climate-Smart agriculture (CSA) techniques which can be practically implemented in the existing agricultural fields i.e. on ground while farming.

I am having this idea of reclaiming part of the Sahara by planting trees to see whether it will assist in combating Climate Change.

(How) Sustainable structures need to be improvised based on climate change so that it will enroute towards green sustainability making Advance Technology (Inclusive).

Anybody who has experience with the R package heatwaveR? Is it a good tool for heatwave and coldspells? Any other tools for heatwave and coldspells simulation that you can recommend?

Although, mangroves have been acknowledged as effective coastal bio-shields and conservation of the same has been taken up as a collective global agenda[1], a more collaborative and intensive effort should be put in place for conservation of these unique habitats. Similar to the collective efforts at the global level, collective efforts at the local and regional level should be initiated and fostered for conservation and sustainable management of mangrove habitats. In this context a discussion note was prepared to initiate a dialogue with individuals and organizations in India, especially on the eastern Indian coast to initiate the “Eastern Indian Mangrove Alliance for Conservation (EIMAC)”, to collectively identify the issues and opportunities and initiate a collaborative effort for conservation of mangrove habitats, sustainable economic development of the coastal communities and climate change mitigation and adaptation on the eastern Indian coast. The following sections of the discussion note provides an overview of the mangrove habitats of the eastern Indian coast, biodiversity, socio-economic conditions of the artisanal fishermen, and the threats of climate change. It was intended that this discussion note would provide the background and help to open the window for further discussion and initiate collaborative and collective action.

[1] Outlook Business Team, 2022. COP27 identifies mangroves as important solution to climate change. Outlook, retrieved online: https://www.outlookindia.com/business/cop27-identifies-mangroves-as-important-solution-to-climate-change-news-235946