Put Your AD here!

“Sustainability” and “climate change” activism taints Our World in Data’s presentation of the facts

“Sustainability” and “climate change” activism taints Our World in Data’s presentation of the facts

Share To Alt-Tech



This article was originally published on The Expose. You can read the original article HERE


Our World in Data has pushed a series of articles on the impact of climate change on crop production.

While the stories get some of the facts straight, parts stray into speculation.  The researcher speculates that some crops have increased less than they would have and that they will decline in the future because of climate change. 

“[These] claims are mistaken, based on disputed computer model outputs and unjustified beliefs about crop responses to modest temperature increases, not experience or data, which is what OWID should stick to,” H. Sterling Burnett says.

Contrary to OWID’s argument, the truth is, “Crop yields have increased due to rising CO2 concentrations, reducing hunger in the process,” he says.

Concluding, “You can’t have high yields without CO2 and modern, fossil fuel-intensive, agricultural infrastructure. That’s the overall lesson readers should take away from Ritchie’s Our World in Data series of articles.”


Let’s not lose touch…Your Government and Big Tech are actively trying to censor the information reported by The Exposé to serve their own needs. Subscribe now to make sure you receive the latest uncensored news in your inbox…


About Our World in Data

Our World in Data (“OWID”) is a research project of the Global Change Data Lab, a registered charity in England and Wales, and researchers from the Oxford Martin Programme on Global Development at the University of Oxford. Founded by Max Roser, a social historian and development economist, OWID aims to compile and publish research on various topics, including global poverty, human rights, covid-19 and the environment.

It is funded via grants from private grant-making foundations, including the Bill and Melinda Gates Foundation, and the Quadrature Climate Foundation. It also has various “sponsors” including the Musk Foundation, the Pritzker Innovation Fund and the Camp Foundation, a non-profit started by the co-founder of Uber Garrett Camp.

OWID was launched in 2014.  Hannah Richie, who wrote the series of articles which are the subject matter of Climate Realism’s article below, joined OWID in 2017.  Ritchie is a Scottish data scientist and senior researcher at the University of Oxford’s Oxford Martin School. She is also OWID’s deputy editor.  Her short curriculum vitae (“CV”) shows she has been very much involved In carbon management, carbon markets and “sustainability” before joining OWID.

Further reading: History of Our World in Data, Our World in Data, 2019

Right, Our World in Data, Climate Change is Increasing Crop Yields, Concern About Future Decline is Unwarranted

By H. Sterling Burnett as published by Climate Realism on 5 November 2024

Our World in Data (“OWID”) ran a series of articles by Hannah Ritchie which explores the impact of climate change on crop production. On balance the stories get the facts straight, pointing out that yields of key staple crops have increased dramatically, in large part due to the CO2 fertilisation effect and modestly warmer temperatures; however, parts of the stories stray into speculation that some crops have increased less than they would have and that they will decline in the future because of climate change. The latter claims are mistaken, based on disputed computer model outputs and unjustified beliefs about crop responses to modest temperature increases, not experience or data, which is what OWID should stick to.

Ritchie’s series of articles, ‘Crop yields have increased dramatically in recent decades, but crops like maize would have improved more without climate change,” “How will climate change affect crop yields in the future?’, and ‘Climate change will affect food production, but here are the things we can do to adapt’, are by and large well written, data-driven pieces describing the current beneficial impact of climate change on crop production and the tremendous potential of wider penetration of modern agricultural technologies into developing countries to increase production further. The only flaws in the articles are where she cites unverified studies depending upon flawed climate model projections to speculate concerning what might have happened to some crops absent warmer temperatures, and what might happen in the future.

Ritchie’s series starts off on solid ground noting the tremendous growth in cereal crops and regionally important staple crops. Ritchie writes:

Ritchie then goes on to detail how higher CO2 concentrations have boosted crop yields. This is a fact that Climate Realism has pointed out in across more than 200 articles previously, HERE, HERE and HERE to point to a few examples. Data from the UN Food and Agriculture Organisation (“FAO”) show that wheat, rice, corn and other top cereal crops have repeatedly set new records for yield and production during the recent period of modest warming.

  • Cereal yields have increased nearly 52 per cent, with the most recent record for yield set in 2022; and
  • Cereal production grew by approximately 57 per cent. (see the chart below).

There are three cereal crops Ritchie expresses concern about, maize, millet and sorghum, claiming that they would have increased more absent of climate change; but that is based on a counterfactual analysis based on computer model projections, not data. She cites studies which suggest that many of the areas these crops are grown in have surpassed or are soon to surpass their optimal growing temperatures, with every increase above the maximum optimum range resulting in declining yields. Yet in the face of a 1.3℃ to 1.5℃ rise over the past century, all three of those crops have experienced substantial yield increases across recent decades, both globally and in the tropical developing Asian and African countries she worries might not be fully benefitting from CO2 fertilisation.

Concerning maize, FAO data show that between 1991 and 2022, global maize yields increased by approximately 55 per cent and about 49 per cent in Africa.

The data from the FAO for millet and sorghum are similar, with each crop experiencing substantial yield gains, globally, and across Africa and Asia over the past three decades of modest warming (see the graph below).

As has been discussed in more than 200 articles on Climate Realism, what is true of global cereal production, is true for most crops, like fruits, legumes, tubers and vegetables, in most countries around the world. Yields have set records repeatedly during the recent period of climate change, food security has increased, and hunger and malnutrition have fallen.

Ritchie cites a few studies which suggest that the yields of maize, millet and sorghum would have been even higher absent warming, which resulted in much of their growing regions experiencing temperatures outside of their optimal range – a problem which will only grow in the future if CO2 emissions aren’t restrained – but such claims suffer from a number of flaws. First, most of the regions of concern for the growth of maize, millet and sorghum, sit astride or are near the equator. Yet the climate change theory says equatorial regions are least likely to experience much temperature rise – rather temperatures are expected to increase dramatically nearest the poles. Little or no temperature rise for the regions of concern means exceeding what some scientists speculate are optimum temperatures should not be a problem.

Second, Ritchie is right that changes in precipitation can reduce crop production, but once again, that should not be a concern. Many of the areas Ritchie highlights in Africa and Asia experience periodic or even seasonal drought. Since, as Ritchie notes, CO2 fertilisation results in crops using water more efficiently, losing less water due to transpiration, crops should benefit. On the other hand, many countries in Africa and Asia depend on rainfall for crop production, with limited access to modern irrigation infrastructure. Here, climate change helps because most research suggests, and the United Nations Intergovernmental Panel on Climate Change (“IPCC”) projects, that climate change will result in increased precipitation, which means more water for crops and if the water is seasonal as it is in many countries, more water that can be stored for use when rain or snowfall is lacking.

Third, the claim that climate change harms crops is contradictory in theory. Climate alarmists claim higher CO2 is driving rising temperatures – if so, the higher temperatures are a by-product of rising CO2, meaning without the CO2, temperatures might not rise. Yet, CO2 is the key factor driving growing crop yields, so absent increasing CO2, crop yields would have increased and continue to grow more slowly than they did, if at all. On this theory, if you want the benefits of CO2 fertilisation, you have to accept the modest temperature increase. Cutting CO2 concentrations to avoid a minimal temperature rise would be to kill the golden goose for crop yields, resulting in a larger decline in or slower growth of yields than any modest decrease in yields that might result from the associated supposed small temperature rise.

What are we left with? Crop yields have increased due to rising CO2 concentrations, reducing hunger in the process. In addition, there is no reason to believe CO2 fertilisation won’t continue to produce yield increased for the foreseeable future; unless climate policies result in lower CO2 concentrations.

On the other hand, as Ritchie points, out any foreseeable negative climate change impacts on crops, most especially in developing countries, would be far outweighed if they gain broader access to modern agricultural technologies, such as fertilizers, pesticides, modern farm equipment and infrastructure. As Ritchie writes:

Yet, modern agriculture depends heavily on fossil fuel use: from the chemicals used to enhance crop growth; to the chemicals used to protect crops from pests; to the machinery used to plant, water, harvest, store and transport crops. So, for agriculture, any possible negative climate change impact on agriculture from using fossil fuels is far outweighed by the tremendous benefits their use directly delivers to food producers and consumers.

You can’t have high yields without CO2 and modern, fossil fuel-intensive, agricultural infrastructure. That’s the overall lesson readers should take away from Ritchie’s Our World in Data series of articles.

About the Author

H. Sterling Burnett, PhD, is the Director of the Arthur B. Robinson Centre on Climate and Environmental Policy and the managing editor of Environment & Climate News. In addition to directing The Heartland Institute’s Arthur B. Robinson Centre on Climate and Environmental Policy, Burnett puts Environment & Climate News together, is the editor of Heartland’s Climate Change Weekly email, and the host of the Environment & Climate News Podcast.

This article was originally published by The Expose. We only curate news from sources that align with the core values of our intended conservative audience. If you like the news you read here we encourage you to utilize the original sources for even more great news and opinions you can trust!

Read Original Article HERE



YubNub Promo
Header Banner

Comments

  Contact Us
  • Postal Service
    YubNub Digital Media
    361 Patricia Drive
    New Smyrna Beach, FL 32168
  • E-mail
    admin@yubnub.digital
  Follow Us
  About

YubNub! It Means FREEDOM! The Freedom To Experience Your Daily News Intake Without All The Liberal Dribble And Leftist Lunacy!.


Our mission is to provide a healthy and uncensored news environment for conservative audiences that appreciate real, unfiltered news reporting. Our admin team has handpicked only the most reputable and reliable conservative sources that align with our core values.