Climate Change - Science topic

This is one of the causes of desertification

"Temperature increases will affect reproduction, but the nature of these effects will depend on the period and amplitude of the increase and range from phase-shifting of spawning to complete inhibition of reproduction. This latter effect will be most marked in species that are constrained in their capacity to shift geographic range. Studies from a range of taxa, habitats and temperature ranges all show inhibitory effects of elevated temperature albeit about different environmental set points. The effects are generated through the endocrine system, particularly through the inhibition of ovarian oestrogen production."

Kindly:

Dear Alastair,

thank you for the question. The Heinrich events are quite a compex and challenging subject of palaeoclimatology. Effects of any particular Heinrich event differ substantially across time and space. So, could you perhaps elaborate a bit further on what precisely you mean by "cause warming"? Which warming at which place and time exactly are you referring to there?

Here's also quite a recent publication you may find interesting:

Ziemen, F., Kapsch, M.-L., Klockmann, M., & Mikolajewicz, U. (2019). Heinrich events show two-stage climate response in transient glacial simulations. Climate of the Past, 15, 153-168. doi:10.5194/cp-15-153-2019.

Best,

Julius

Tectonic processes work over long time spans. The pre-Himalaya land surface would have been well vegetated and would have supplied the diverse variety of flora. As the mountains rose, much of the plant life would have needed to adapt to colder conditions. Once steeper slopes were created, rockfall and landslides were inevitable.

Plants need soil and parent material provides the base from which soils develop. Therefore the local rock type is critical to the early development of soil. Calcareous rocks, e.g. limestone, provide a rich sweet element base to support grasses. Quartzites on the other hand break down to infertile silicates and soil develops very slowly on such. Another factor related to rock type is its propensity to weather and/or slide. Marls, clays, shales and highly micaceous schists are very prone to rapid weathering both physical and chemical and also to slippage along planes of weakness. Granites, quartzite and psammites are much more durable forming blocky scree in which little soil can form or plant get rooted. Mosses and pioneer species take hold first.

i have noted that in areas affected by recent debris flows that vegetation can very rapidly recolonise even in one year, so that any recent activity can become concealed.

George Strachan

Amidst the mounting evidence that climate-induced crisis are occurring more frequently and severely than ever before. Today , the number of weather -related disasters is about five times the number of disasters occurred 40 years ago. The number of people worldwide in need of life-saving humanitarian assistance reached 238 million in 2020, an unexpected number. Africans and the world can anticipate the occurrence and potential impact of climate shocks with greater confidence than ever before. With proof of risk, Africans should and must now respond to crises before they happen- a proactive approach that can save lives , secure livelihoods, and more coast -effectively

The shadow range represents the uncertainty between models, and you can use quartiles to define upper and lower limits, for example:

Slow=quantile(ysample,0.125); Shigh=quantile(ysample,0.875);

h1=patch([yr' yr(end:-1:1)'],[Shigh Slow(end:-1:1)],[0.8 0.8 0.8],'linestyle','none');

Ilow=quantile(ys,0.125); Ihigh=quantile(ys,0.875);

h3=patch([yr' yr(end:-1:1)'],[Ihigh Ilow(end:-1:1)],[1 0.7 0.7],'linestyle','none','facealpha',0.8);

I have filled out the survey on climate change and we hope that you will share the results of this survey with us if possible.

Also see the RG links below.

Through RS and GIS you can integrate.

That will be useful especially in data scarce region.

Academic resources on applied fluid mechanics are provided on:

SINGLE PHASE AND MULTIPHASE TURBULENT FLOWS (SMTF) IN NATURE AND ENGINEERING APPLICATIONS | Jamel Chahed | 3 publications | Research Project (researchgate.net)

Dear Usman,

I find this recent published paper linked below very useful related to your request evaluating the sustainability of basin-wide ecosystem services under three different climate change scenarios considering projects defined based on Urmia lake restoration national program in Iran. I recommend that you also pay attention to its references maybe useful to know other related works.

Best, Elaheh

Also check please the following very good RG link:

There are none because we have seen globally, biodiversity is being lost and increasingly threatened through a range of anthropogenic actions.

Yes it is possible, this article will surely be helpful

Dear colleagues @Jose Alberto Lopez Aleman and @Lewis Maccarter explained very well the procedure to get prepared to start a master thesis. I am also in agreement with them and insist on a good literature search on selected topic especially recent published papers and using the references of that papers for getting further knowledge about the topic. Then thinking about the data to design an appropriate experimental design. When you set these important steps as well, then you can go directly towards the results you want to achieve. Good luck.

Also check please the following useful link: https://pub.epsilon.slu.se/13553/1/bargues_tobella_a_160808.pdf

Thank you Dear Wilhelm Pieter Nel for this relevant post.

Indeed we have to consider all the issues you raised.

I recently attended restitution of research work carried out within the framework of consortia of research teams including Tunisian teams on the impacts of climate change on water resources. One of the themes is the effects of climate change on groundwater recharge. An interesting subject you might say but, in my opinion, surreal if one considers the catastrophic situation of the state of exploitation and degradation of water resources in the countries of the southern Mediterranean. I cite the Tunisian example and we can transpose: Most of the groundwater is subject to disastrous overexploitation leading to drawdowns and irreversible degradation of resources. Some aquifers are exploited at more than 250% of the average recharge rate and the oases of the South draw on very weakly renewable “fossil” aquifers to produce dates sold at prices ranging between $ 1 and $ 3 (approximately 8 m3 of water are required to produce 1 kg of dates) [1]. Coastal aquifers in the Cap-Bon region are stressed to such an extent that marine intrusion has, in some cases, resulted in the definitive degradation of the resource. These waters are used in the production of citrus fruits sold at less than $ 1 per kg. If the decision-makers and the scientific community do not put urgently all their human and material resources and all the scientific and technical means, to solve this nagging problem; well, the time needed to define and put in place measures of resilience and adaptation to the hypothetical effects of climate change on groundwater recharge will be more than enough for the squandering of these resources to be total and definitive as it is already the case of certain coastal aquifers.

[1](4) National Water Security, Case Study of an Arid Country: Tunisia | Request PDF (researchgate.net)

Anouar, thank you for commenting.

Keep in mind, it is theory-practice fact: a) there can not be green economy and green growth without green markets; b) There can not be green markets and green growth without a green economy; and c} There can not be green markets and green economies without green growth.

You will find some good food for thoughts related to this question in the following article, when you have time, take a look at it:

Sustainability thoughts 130: Can green economies and green growth exist without green markets? If not, why not? What is the current main development implication of this?

Respectfully yours;

Lucio

Community-Based Adaptation (CBA) is an important component of the larger picture of management and avoidance of Climate Change impacts and pressures by local people. ... CBA also provides information needs which can be shared and replicated in an appropriate format and manner acceptable by communities. https://www.adaptation-undp.org/community-based-adaptation

Dear Dr Jamel Chahed . I agree with Dr Ilan Kelman .

Yes, i too feel that way ....hardly any evidence such as this is available until now...

Looking for good historical fit is very reasonable. However, it is by no means a guarantee that this pattern is perpetuated into the future since all climate models are (gross) simplifications of the true processes at work (of which our understanding is still incomplete). Moreover, downscaled climate predictions are again obtained by modeling and rely on fitted relationships (e.g. with elevation) that may actually change over time.

Using all available or many climate models in a consensus/ensemble approach might be more robust than relying on the (unknown) accuracy of a single future climate model. Maybe weighting them by their historical fit would allow you factor in the assumption/expectation that good models will remain good in the future.

Dear James and Nivedita, many thanks for the response. Great!

interesting question

Also check https://www.forbes.com/sites/joshuarhodes/2021/10/08/is-bitcoin-inherently-bad-for-the-environment/?sh=24a660f53033

Bomidi Lakshmi Madhavan Thank you!

Thank you Mario Zenteno Claros for your valuable suggestion and sharing link.

Dear colleagues, we currently have two projects written for the intelligent management of water resources, the first is about the development of automatic pluviographs with local and recyclable materials, and the second is about the management of natural resources, water and soil in the current context of climate change through the application of satellite technologies and artificial intelligence. These are recognized by our ministry of science, technology and environment for which this consolidation. Soon we hope to present a project for the realization of the water balance in a daily regime and in high spatial resolution, with the application of satellite hydrology and big data and artificial intelligence techniques. For the successful implementation of these projects, international collaboration is important, so if you are interested in collaborating to find financial support opportunities for these projects, we can start whenever you want.

Kind regards.

Also have a look at the following RG links.

Climate change is now a fact of political life and is playing a growing role in business competition.

The below link can be helpful:

The idea of describing a stochastic nature of the interaction between climate and weather was presented in a very concise manner by Hasselmann in the 1970s:

>> A stochastic model of climate variability is considered in which slow changes of climate are explained as the integral response to continuous random excitation by short period “weather” disturbances. The coupled ocean-atmosphere-cryosphere-land system is divided into a rapidly varying “weather” system (essentially the atmosphere) and a slowly responding “climate” system (the ocean, cryosphere, land vegetation, etc.). <<

The attribution of a single event in such a system to the changes of a “slow part” is most likely not possible at the current level of our climate models. I‘m not even convinced that the vastly increased level of complexity of our Earth Modelling Systems is making this task simpler, perhaps we need an approach departing from a classical Bjerknes-Richardson paradigm?

Hi Orzu Odinaev Orzu Odinaev

There are a lot of publications about the effect of climate change on wheat production. I recommend you to find observed data first such as meteorological data, soil data, management practices data, agronomic characteristics of wheat, and wheat production. After that, you can run DSSAT using those observed data for calibration and validation. Therefore, you can asses the effect of climate change on wheat production using future climate change scenarios.

You can find in this paper

Dariusz Prokopowicz still learning from your questions...thanks

Planting trees doesn’t always help with climate change. Reforestation is seen as a way to help cool the climate, sucking excess warming carbon out of the atmosphere. But it’s not always that simple.

these articles can be useful:

this article may help you:

Dear Dr. Vasant Madhav Wagh

Thank you very much for the insightful suggestions.

Regards

Gowhar Meraj

indeed very interesting

China is experiencing a “national movement” as companies, regional governments and academia shift gears to help the country meet its climate goals. The world’s top carbon emitter has, for the first time, published plans broadly outlining how it might achieve net-zero carbon emissions by 2060, and a peak of emissions before 2030 — promises it made in 2019. The move has spurred more than ten prominent universities and institutions to set up carbon-neutrality-research institutes already this year; the Chinese Academy of Sciences launched a centre last month. But some researchers are still disappointed with the climate commitments the country has made so far...

Renewables are absolutely essential for the future. It was a horrible mistake to keep with the fossil fuels, even though the pollution was a known phenomenon well before climate started changing.

In the 1960's California declared that all cars would be electric by the 1990's. Unfortunately, they didn't know how powerful the Big Oil producers were: bigger than any government!

Even today with global warming threatening the future of humanity around the globe, governments, such as in Canada, still subsidize Oil companies with taxpayers money! This is outrageous, instead of penalizing them for polluting the planet, they reward them with money.

Who is going to pay for the damages from the unprecedented flooding in British Columbia this past week? You and I, of course.

Pollution (addition of gases into the air from human activities, such as carbon dioxide) is the main cause of climate change today.

Trees absorb some of the CO2 from the air, but people have been cutting down trees for all kinds of reasons, such as building roads, houses, etc. Therefore, unless you plant more trees and some are doing that, the CO2 builds up in the atmosphere and has the tendency to absorb heat that is being sent back into space. Instead of going to space this (outgoing) heat stays in the air and warms up the air (global warming).

This video will answer your question

The last decades shows more frequent and intense anomalies than before.

Increasing warming comes with increasaing standard deviations (i.e increasing anomalies)

Cheers

According to a United Nations report published on August 9, 2021, acceleration of greenhouse gases, including carbon dioxide and methane, is being caused by humans: "Global climate change is accelerating and human-caused emissions of greenhouse gases are the overwhelming cause, according to a landmark report released Monday by the United Nations. There is still time to avoid catastrophic warming this century, but only if countries around the world stop burning fossil fuels as quickly as possible, the authors warn."

Read more at this link: https://www.npr.org/2021/08/09/1025898341/major-report-warns-climate-change-is-accelerating-and-humans-must-cut-emissions-

See also this related discussion: https://www.researchgate.net/post/How_Research_Interest_is_calculated_by_Research_Gate_for_an_article

Dear Ahmad Khanifarzade

Latest researches explain quite impressively in these publications, have a look:

1. https://www.nature.com/articles/s41598-020-72384-x

2. https://www.frontiersin.org/articles/10.3389/fclim.2021.693653/full

3. https://spj.sciencemag.org/journals/remotesensing/2021/8379391/

Kind Regards

Dear Saeideh Baghanian

You can easily use CDO in window 10 by installing Ubuntu's terminal as a window application in window 10. Kindly follow the six steps below:-

step1: Open your window 10 and go to search are and then search the word turn window features on or off as illustrated in image1 (step1) attached below.

step2: from the popup window resulting due to step1, Scroll down until you see Window Subsystem for Linux and check it (tick) then click ok and restart your computer.

AIM OF STEPS 1 & 2: Is to create an environment for using Ubuntu (Linux) in Windows 10.

Step3: After finishing to restart your computer then search for Microsoft store and then click the app store as illustrated in image 3 (step3)

step4: After opening the Microsoft store then search Ubuntu and then install the latest version as illustrated in image 4 (step4).

step5: Open the Ubuntu terminal (App) and then create your username and password and finally update the ubuntu packages by using the command sudo apt-get update as shown in image 5 (step5).

step6: then install CDO by using the command sudo apt-get install cdo

# error

cdo: error while loading shared libraries: libQt5Core.so.5: cannot open shared object file: No such file or directory

sudo strip --remove-section=.note.ABI-tag /usr/lib/x86_64-linux-gnu/libQt5Core.so.5

Giorgio Sperandio Xiangjun Zhou Jiang Jie Md Rabiul Islam

Hi, Guys sorry for the delay in my response.

No, I have not been able to source or download statistically downscaled CMIP6 data since. I am afraid that Charles Simpson is correct, the data is not available anywhere other than Worldclim which was not released 30 arc seconds to date.

However, if anyone is able to find a source, please share it here.

Thanks!

I am wondering what have you learned with your participation with the Hellenic Centre of Marine Research, if you are still there.

There are lively discussions at RG and some people are unaware about the importance of limiting the amount of CO2 in the air.

I contributed in the education of younger generations (in Canada) who are very enthusiastic about supporting the elimination of the fossil fuels.

Anybody can change the world by adopting new methods and avoiding fossil fuels. Don't wait for government to adopt new policies, etc, they take ages to implement.

My nephew, a pilot in the USA just leased a new electric car, a Tesla. He used a gasoline car for 15 years. Now he is NOT polluting for the first time. That makes a difference. He is saving the planet, one person at a time.

It was nice to take part in big marches, meet people and feel part of a "big family".

Now, it is time to help the planet by avoiding the use of fossil fuels and convince others to do the same. Start recycling and support others. You can bicycle to work, school or university and meet nice people on the way while doing so.

Eat well, because a healthy mind needs a healthy body.

Yes. Please see the following useful link for insights.

Hi Manar, in this case I would go either for a manual sampling (based on visual interpretation and personal knowledge of the master plan) or a GIS-based approach. This will depend on how you intend to use the LCZ maps and for what reason. The GIS-based approach is generally preferred but it requires the availability of a digital topographic database, primarily including buildings and their heights (so that relevant indicators can be calculated, e.g. SVF and H/W ratios of representative street canyons) but also land use (to account for the different ground cover characteristics). For the GIS-based approaches, see, for example, the work of Lelovics et al. (https://doi.org/10.3354/cr01220) and the work of Geletič and Lehnert (https://doi.org/10.1515/mgr-2016-0012), where a full procedure for a applying a GIS mapping of LCZs is explained. Combined approaches, even if they are not directly applicable to your case, might be also a useful source of information for the GIS part. See, for example, the work of Gál et al. (shorturl.at/giDFS) or our recent work (http://dx.doi.org/10.5821/ctv.8663).

Lastly, have a look at these two recent publications, by Lehnert et al. (2021) and Jang et al. (2021) that comprehensively compare different mapping methods of LCZs and their application.

Best,

Trees have different direct and indirect effects on climate which results from trees reactions to various and effective factors on climate conditions. Factors such as emissions of greenhouse gases, organic aerosol production, changing albedo ratio and heat disturbances are among different factors which affect the speed of climate changes. Therefore, it is necessary to take action to mitigate climate change consequences. One of the most important and economical solutions is forest development. The most important issue for forest development is selection of suitable tree species. Present study was conducted to answer the fundamental question: Which tree species can play a more appropriate role in mitigating the consequences of climate change and global warming? To conduct the present study five plantation forests were selected with broadleaved and coniferous tree species, including Acer velutinumBioss, Alnus glutinosa (L.) Gaertn, Quercus castaneifolia C.A Mey, Cupressus sempervirens var and one plantation stand of Populus deltoides Barter.ex Marsh, outside the forest in the north of Iran. Our results indicated that for forest development in this area, tree species such as alder and maple were used and in the wood farming trees such as poplar was used to take advantage of their ability to mitigate the weather ambient under global warming and cypress is not suitable for forest regeneration in this region.

Global warming and climate change Negatively affecting the system

Dear Dr. Manta!

You raised an important point to consider. I really this the answer is case (type of market) and context (regulations, practices, incentives available) dependent one:

1) Stoll, P.P., Pauw, W.P., Tohme, F. et al. Mobilizing private adaptation finance: lessons learned from the Green Climate Fund. Climatic Change 167, 45 (2021). https://doi.org/10.1007/s10584-021-03190-1 Open access:

2) Nawaz, M.A., Seshadri, U., Kumar, P. et al. Nexus between green finance and climate change mitigation in N-11 and BRICS countries: empirical estimation through difference in differences (DID) approach. Environ Sci Pollut Res 28, 6504–6519 (2021). https://doi.org/10.1007/s11356-020-10920-y Free access:

3) Park, J. How can we pay for it all? Understanding the global challenge of financing climate change and sustainable development solutions. J Environ Stud Sci (2021). https://doi.org/10.1007/s13412-021-00715-z Free access:

4) Muhammad Asif Khan et al. (2021). Does green finance really deliver what is expected? An empirical perspective, Borsa Istanbul Review, Available online 2 August 2021, In Press, Corrected Proof, Free access: https://www.sciencedirect.com/science/article/pii/S2214845021000806

Yours sincerely, Bulcsu Szekely

Facing the same problem

Es posible.

· 📷Rouf Ahmad Bhat

· 📷Gowhar Hamid Dar

· 📷Monica BUTNARIU

Goal: We are pleased to inform you that we are in the process of editing our forthcoming publication entitled " Microbial Bioremediation - Sustainable Management of Environmental Contamination" to be published by Springer Nature. We would like to take this opportunity to cordially invite you to contribute a chapter on the given below tentative chapter titles or other topics relevant to the theme of the book. Section A: Overview of Environmental Pollution and Microbial Ecology 1. Credibility of Biosensors for Monitoring contamination in different Environments 2. Major groups of microorganisms employed in bioremediation 3. Microbes in Restoration of Ecology and Ecosystem Services Section B: Microbial Solutions for Environmental Management 4. Perspectives of Microbial Inoculation for Environmental Management 5. Microbial inoculums for Groundwater Decontamination 6. Plant-Associated Bacteria in Ecosystems Functioning and Sustainability 7. Microbial metabolisms: Application in environmental decontamination and Management 8. Microbial degradation of Emerging Environmental Contaminants (EECs) Section C: Microbial Degradation Technologies and Remediation 9. Microbial Biotechnology: Energy generation approach from the environmental waste 10. Environmental Microbial Genomics in Sustainable agri-ecosystems 11. Hydrocarbon and oil-spill bioremediation 12. Microbial enzymes and their importance in the environmental decontamination 13. Microbial biotechnology for the production of the biodegradable plastics polyhydroxyalkanoates 14. Genetically engineered microorganisms for bioremediation processes 15. Microbial degradation of industrial pollutants from different environments 16. Bioremediation of organic and metal-contaminated environments Submission Deadline: 30th November 2021

Publication charges: Nil

Contact Details

Editors Dr. Rouf Ahmad Bhat (rufi.bhat@gmail.com)) Prof. (Dr.) Monica Butnariu (monicabutnariu@yahoo.com) Dr. Gowhar Hamid Dar (dargowharhamid@gmail.com)

Prof (Dr.) Khalid Rehman Hakeem

The term Climate Change has been connected with many dimensions in the community of the different stakeholders.

Of course, the results and side effects of Climate Change has many impacts among the people and livestock's in many developing countries mostly.

The researcher is looking for a title for PhD. I can suggest that Climate Variability influence on Household Resilience of Microfinance beneficiaries in the ..........District, South Ghana.

The respondents could be either male or females beneficiaries of the MFI and how they are managing the difficult times of Climate Change to overcome the challenges and vulnerability.

MFI beneficiaries livelihoods can be adjusted with available facilities of Microfinance during the Climate Change periods.

The scholar has to check the Dependent variable and Independent variables in connection with suitable econometric models will help to measure the results of the Impact of Climate Change.

Hope many comments are yet to come from other academicians or researchers.

Great thought Gabriela Monsalvo-Velazquez . Thanks for sharing.

They're being parsimonious which is as old as time

At the risk of highlighting our own work, SDMs (even presence-only) models can be used to predict, and back-cast forest-related habitat amount over time. We've used 'raw' Landsat TM bands to do SDMs - which primarily predict species as a function of forest composition. Because Landsat goes back to 1985, you can quantify habitat changes 1985-present. This is very useful for examining forest degradation (see in review paper preprint: "Forest Degradation...."

Thank you so much Ilan Kelman

In punjab the paddy yield decrease due to rainfall. When rainfall occur there are loss of yield at panicle intiation, booting etc. And bacterial blight increase due to high moisture and increase the multiplication of disease but if field infected with leaf folder at this stage rainfall is beneficial but not heavy.

I believe legal theory is a tremendous force in the identification of those gaps in legislation. I see legislators all over the planet engaged in the erosion of democratic processes because they are trapped into their own epistemological limitations. Fundamental rights are more than ever under siege, and to move forward into producing a legal theory that identifies the limitations of what has been done so far is badly needed. The functional disconnect between the mandates of international law and national realities is blastering.