Showing posts with label diet. Show all posts
Showing posts with label diet. Show all posts

Livestock Triangle

Meat Society: Number 23 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC


There is a “triangle of industrial animal agriculture” that connects the world’s biggest players in the food animal and feed industries: the US, China, and Brazil. The three nations form three points of a triangle, with the US serving as a major exporter of mature, industrialized, livestock production chains.(514)

The US is one of the world’s top cow flesh producer and the second largest pig flesh producer, comprising 18.6 percent and 9.4 percent of world production, respectively.(515) Between 2002 and 2012, the number of animals on the biggest US factory farms swelled by 20 percent. Both US livestock exports and domestic consumption are projected to grow throughout the next decade.(516)

China is a rapidly growing economy with a huge appetite for livestock products and a major market for US production. China became the world’s largest importer of soybeans, used for livestock feed, in 2000, and the top animal carcass producer in 2009.(517) The rapid expansion of intensive animal farming facilities is part of an effort to catch up with the livestock production model now standard in industrialized countries. In 2014, China produced 56.7 million metric tons of pig and 6.9 million metric tons of cow flesh, representing 51.3 percent and 11.5 percent of world production, respectively.

Despite this, with restricted natural resources domestically, especially water, to meet the demand for livestock, China is heavily importing food animal carcass and live animals from other countries as well. Together, China and Hong Kong in 2014 were the top importers of cow and pig flesh. During the first half of 2013, Hong Kong became the largest export market for Brazilian food animal carcass.(518)

Brazil is the world’s largest chicken flesh and soybean trader, the second largest cow carcass exporter, and the fourth largest pig flesh dealer. Brazil is a country with intensifying conflicts between the economic returns of spreading livestock- and feed-centered agricultural production and the need to protect some of Earth’s most ecologically critical ecosystems.

Currently, upwards of 40 percent of Brazil’s soybean harvest is crushed domestically to create soybean meal, half of which is used in the country as food animal feed. Most of the rest are exported. A large percentage of the products of intensive agriculture in Brazil, like pig carcass, chicken flesh, and food animal feed, is exported. In contrast, China only exports a small fraction of these products.

Turning farms into factories has helped the US achieve huge agricultural yields, producing at low cost and high “efficiency” with regard to time, if not energy or environmental efficiencies. As the small players drop out or merge with the big players through vertical or horizontal integration, concentration in the food animal industry is exacerbated. As with energy, transport, communications, health and other vital sectors, the food system is increasingly controlled by fewer, larger transnational food corporations (TFCs).

With broadening market strength and dominance, food integrators are able to influence policy-making and policy implementation in favor of their bottom lines. Subsidies are a key case in point. In 2012, US government subsidies for livestock, soybeans, and corn were US$ 58.7 million, $1.5 billion and $2.7 billion, respectively.(519)

The US model of integration easily found a place in Brazil and has thrived there. Although the export of this model to China has encountered some obstacles, construction of large facilities by national and international agribusinesses is mounting with government policy support.

But this triangle of industrial animal agriculture is not sustainable, and is self-destructive for humans. The externalized costs of factory farming will put progressively heavier burdens on consumers, producers, and even on those who choose not to produce or consume factory farmed products or any food animal products at all.


Chapter 14: DIET OR POPULATION? page 138

Hidden Population: Obesity

Meat Society: Number 22 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC


Considerable scientific attention is given to calculating the number of people and rate of population growth, but much less effort is expended on estimating average human mass. This disparity exists despite evidence that average body mass is climbing at a sharp pace. Weight is measured using body mass index (BMI). The overweight have a BMI over 25, and the obese have a BMI above 30.

For the first time in human history obese people outnumber underweight people. Almost 11 percent of men and 15 percent of women worldwide are obese, while under 9 percent of men and 10 percent of women are underweight, defined by a BMI of under 18.5. Severe and morbid obesity are associated with highly elevated risks of adverse health outcomes.(509)

Due to the rapid expansion in animal domesticates population and carnism in both industrialized and industrializing countries, human body weight is becoming a serious public health concern. Moreover, excess human population mass could have the same implications for world food energy demands as an extra half a billion people living on the earth. Obese populations need more food to support their extra mass, and thereby amplify climate-altering gases discharged from food production. Overweight bodies also need more fossil fuel to transport them in cars and planes. So maintenance of a healthy weight has crucial health and environmental benefits. Globally, BMI for both men and women have climbed sharply for four decades. 

In 1975, men had a BMI of 21.7 and women had a 22.1 BMI. In 2014, those figures ware 24.2 for men and 24.4 for women. This means that the average person became 1.5 kg (3.3 pounds) heavier each decade. If present trends continue more women will be severely obese than underweight by 2025. 

According to the CDC, in 1960, the average American male weighed 166.3 pounds, which is the same as the average mass for American women in 2010 at 166.2 pounds. The average weight for women in 1960 was 140 pounds, so there was an 18.5 percent gain for females over half a century.(510)

In 2010, the average weight for men jumped to 195.5 pounds, adding almost 30 pounds, a 17.6 percent gain in 50 years. Over 35 percent of American females and males over the age of 20 are obese. An astonishing 70 percent of American adults, who are over 20 years of age, are either overweight or obese. On top of this, around 20 percent of American children between six to 19 years old are obese. 

In 2012, the US came in third, following the Pacific island nations Micronesia and Tonga, for having the highest average weight in the world. By comparison, Americans are 33 pounds heavier than the French, and 70 pounds bigger than the average Bangladeshi.(511)

In 2005, global adult human biomass was 287 million tonnes, of which 15 million tonnes came from being overweight. This extra mass is equivalent to that of 242 million people of average body mass, or five percent of global human biomass. Biomass from obesity was 3.5 million tonnes, the equivalent of 56 million people of average body mass.

North America has 6 percent of the world population but 34 percent of biomass from obesity. In contrast, Asia has 61 percent of the world population and 13 percent of biomass from obesity. One tonne of human biomass corresponds to 12 adults in North America and 17 adults in Asia. 

If all countries of the world had the same BMI distribution as the US, the added human biomass of 58 million tonnes would be equivalent to an extra 935 million people of average body mass. Further, they will have energy requirements equivalent to that of 473 million adults.

Compared with a normal population distribution of BMI, a population that is 40 percent obese requires almost 20 percent more food energy. In a population of one billion, the greenhouse gasses (GHGs) from food production and car travel due to increases in obesity is around 0.4 Giga tonnes (GT) and 1.0 GT of CO2e per year. This is equivalent to between 1 and 2 percent of the recent emissions from the total human population.(512)

A reduction of average weight by 5 kg (11 lb) could reduce transport CO2 discharges in the 34 high-income OECD countries by more than 10 million t. GHG pollution could be diminished another 4 million t through reduction of associated food waste in OECD countries. And, while the shift from cow flesh to other forms of animal flesh in industrialized and countries in transition has lead to food animal lifecycle emissions savings of 20 million t CO2e between 1990 and 2005, GHG releases due to obesity-promoting foodstuffs have increased by more than 400 million t CO2e in advanced developing countries.(513)

Overweight Americans and others in the global North are causing far more planetary heating than people with average body mass. Dietary changes are essential to reversing this dangerous trend. However, this issue is tricky to address since 'fat-shaming' can be a counter-productive strategy.


Chapter 14: DIET OR POPULATION? page 137

Hungry Masses

Meat Society: Number 21 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC


Malnutrition affects one in every three people worldwide, afflicting all age groups and populations, and plays a major role in half of the 10.4 million annual child deaths in the developing world. And, malnutrition continues to be a cause and a consequence of disease and disability in the children who survive.(494) The most visible form of hunger is famine, a true food crisis in which multitudes of people in an area starve and die.

There are over 850 million people who are chronically hungry. This is the largest number and proportion of malnourished people ever recorded in human history. Plus, being underweight is a major problem globally. A quarter of women in India and Bangladesh are underweight. And a fifth of men in India, Bangladesh, Timor-Leste, Afghanistan, Eritrea and Ethiopia are underweight.(495) Being underweight put a person at risk for multiple health problems including anemia, infertility and osteoporosis.

In the entire developing world, or Global South, hunger and poverty are intense and may worsen as economic growth across the world stalls. From 2005 and 2008 food prices almost doubled. To make matters worse, from 2007, there has been a sizable slowdown in food aid, bringing hunger reduction "essentially to a halt for the developing countries as a whole."(496)

As many as 2.8 billion people on the planet struggle to survive on less than $2 a day, and upwards of one billion people lack reasonable access to safe drinking water. There is an enormous and persistent food gap between the Global South and the developed North. To illustrate, the average person in the industrial world took in 10 percent more calories daily in 1961 than the average person in the developing world consumes today.(497)

The large numbers of poor and malnourished people in the world are unacceptably high, but these numbers may be much higher due to under-counting. Misleadingly, the UN set the threshold for hunger as the minimum calories needed for a "sedentary lifestyle." In reality, the number of hungry people could be as high as 1.5 billion, or in excess of 25 percent of the world's adult population if the threshold was set as the minimum needed for "normal activity."

And, numbers of the hungry would jump to 2.6 billion, or nearly 45 percent of the global adult population, for the minimum calories needed for "intense activity." Currently, 4.3 billion people live on less than $5 a day. Although higher than the World Bank poverty criteria at $1.25 a day, one report showed that a realistic poverty measure would be around $10 a day.(498) This standard indicates over three-quarter of humans live in poverty.

One-fifth of the Earth's 7 billion people have no land and possessions at all. These "poorest of the poor" are nonliterates lacking safe drinking water and living on less than a dollar a day. Many spend about 80 percent of their earnings on food, but are still hungry and malnourished. The average US house cat eats twice as much protein every day as one of the world's poorest of the poor, and the cost to care for each cat is greater than a poor person's annual income.(499)

Half of the world's population have enough food to provide energy, but suffer from individual nutrient deficiencies. Billions of people lack iron, iodine, vitamin A, and other vital nutrients. In addition, racial, caste, ethnic, and religious hatred, along with monetary greed, cause food deprivation for whole masses of people around the globe. And, food insecurity is about to get worse. 

The UN estimate that climate transformation will affect poor countries the most, and inflate food insecurity. Oxfam predicts world hunger will worsen as planetary heating inevitably affects crop production and disrupt incomes. The organization suggest the number of people in the peril of hunger might climb by 10 to 20 percent by 2050, with daily per capita calorie availability falling across the world.(500) 

Food inequality is also increasing. Worldwide, 2 billion people live primarily on an animal-based diet, while double that sum, or 4 billion people, live primarily on a plant-based diet. The UNEP estimated that calories lost from feeding cereals to animals could feed an extra 3.5 billion people.(501) Another analysis calculated that 4 billion people could be fed with the crops devoted to livestock. The single biggest intervention to free up calories would be to stop using grains for cow carcass production in the US. By far, the US, China, and Western Europe account for the bulk of the 'diet gap,' and corn is the main crop being diverted to animal feed.(502)

By moderating diets from food animals, choosing less resource-demanding animal products, and maintaining non-feed systems, around 1.3 and 3.6 billion more people could fed. And ending consumer waste of animal calories could feed an additional 235 million people.(503)

The World Health Organization (WHO) estimated that the number of people fed in a year per hectare (2.5 acres) ranged from 22 individuals for potatoes and 19 for rice, to one and two persons, respectively for cow and sheep flesh. The agency added that the low energy conversion ratio from feed to carcass is a concern since most of the cereal grain being produced is diverted to livestock.(504)

A Bangladeshi family living off rice, beans, vegetables and fruit may live on an acre of land or less. In sharp contrast, the average American, who consumes around 270 pounds of animal carcass a year, needs 20 times that.(505) The current global average animal consumption is 100g (3.5 oz) per person per day, with about a ten-fold variation between high-consuming and low-consuming populations.(506)

For most people in developing countries who obtain their protein from plants, eating animal flesh is a luxury. A kilogram (2.2 lb) of animal carcass can cost from $2 to $5 in the local markets, which is several days’ wages. A typical African eats only 20 kg (44 lb) of animal flesh a year, well below the world average.(507)

These findings suggest that over-consumption and dietary habits are of the essence for understanding resource use and greenhouse gas (GHG) pollution, as opposed to expanding population being the primary driver as is popularly argued. That is, population's importance is related to lifestyle expenditures, and specifically to the over-consumption class.

A 2011 report concludes, “The mass consumption of animals is a primary reason why humans are hungry, fat, or sick and is a leading cause of the depletion and pollution of waterways, the degradation and deforestation of the land, the extinction of species, and the warming of the planet."(508)


Chapter 14: DIET OR POPULATION? page 135-6

Diet or Over Population?

Meat Society: Number 20 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC


Substantial modifications in population size, age structure, and urbanization are expected in many parts of the world this century. These variations can affect energy use and greenhouse gas (GHG) outflows. In particular, aging, urbanization and variations in household size can substantially influence GHG footprints in some regions. Aging will occur in most regions, due to declines in both fertility and mortality. 

Aging is expected to be particularly rapid in regions like China that have recently experienced sharp falls in fertility. On the positive side, slowing population growth could provide 16 to 29 percent of the GHG reductions suggested to be necessary by 2050 to avoid dangerous climate transformation.(490)

There is an inverse relationship between the two main drivers behind increased land requirements for food – as socioeconomic development improves, population growth declines. At the same time, diets become richer. Typically, consumption of animal protein, vegetable oil, fruit and vegetable swells, while starchy staples become less essential.

With higher purchasing power comes higher consumption and a greater demand for processed food, animal flesh, cow milk products, chicken eggs, and fish, all of which add pressure to the food supply system. This over-consumption severely affects global sustainability, equity, and food security.(491) 

During a span of 46 years, from 1961 to 2007, a review of data from the UN's Food and Agriculture Organization (FAO) showed that in most regions, diets became richer while available land for food diminished. In many regions, dietary change may override population growth as a major driver behind land requirements for food in the near future.(492)

Potential land savings through yield improvements are offset by a combination of population growth and dietary change. These dynamics were the largest in developing regions and emerging economies. Also, additions to the total per capita food supply is not occurring everywhere around the world. In some rich, developed regions, such as Northern Europe and Oceania, food supply levels remain constant.

In most developed regions, the share of animal products is extraordinary high. From 1961 to 2007, food animals constituted one-third of the available calories in the Global North, compared to 10 percent or less in many of the poorer regions in the global South. These dynamics are set to change. The FAO projects that world population will expand 34 to 41 percent by 2050 to reach 8.9 to 9.1 billion. Food demand will soar upwards by 70 percent, and daily per person calorie intake will rise to 3,130 calories.

Food is a major part of climate warming, but it is also essential for survival, security and equity. Although the consumption per capita of cereals is likely to stabilize, population growth will escalate the demand for both food animals (almost doubling) and cereals (50 percent) by 2050.(493)


Chapter 14: DIET OR POPULATION? page 134

COVID-19 in 2020: Lessons Learned

Introduction

A year ago, on 2019 New Year's Eve (NYE), China's health authorities notified the World Health Organization (WHO) that they had identified a cluster of cases of "pneumonia of an unknown cause" in the city of Wuhan. A year later, the streets of Wuhan were packed with crowds of people celebrating 2020 NYE, while billions around the world were left stranded inside their homes, in an attempt to curb the rapidly spreading SARS-CoV-2 virus that cause the COVID-19 disease. As 2020 comes to an end, we reflect on the lessons learned so far regarding this health pandemic.

2020 was an unprecedented year that saw the novel coronavirus spread from Wuhan, where it was originally detected, to reach each continent and corner of the globe, including Antarctica. According to Johns Hopkins University, by the end of the year, SARS-CoV-2 had infected 83 million people, and caused the deaths of 1.8 million individuals.[1] The USA, with a population of 332 million people, had the most infections and deaths, 20 million cases and 346,000 deaths. With less than five percent of the world's population, the USA had close to a quarter of the world's total number of coronavirus cases and deaths from COVID-19. The USA had more coronavirus cases than the next three countries combined (India, Brazil and Russia).

Compared to the USA, India with four times the population (1.3 billion), had half the number of cases and deaths, 10 million cases and 148,000 deaths. And, China, with even more people (1.4 billion), had even less cases and deaths, 87,000 cases and 4,600 deaths. The figures from the USA, India and China show that the impact of the SARS-CoV-2 has been unequal. Why is the USA figure so high, and what do these numbers tell us about this deadly virus?

Where Did SARS Originate?

Before we can start analyzing the unequal toll from the disease, it is important to consider some basic questions, and sum up the lessons learned so far. The first set of questions relate to the origin of the crisis - where did SARS-CoV-2 come from? Does the origin of SARS-CoV-2 have anything in common with the the SARS virus that appeared in 2002? What are the chances of a third severe acute respiratory syndrome (SARS) virus arising in the next decade? The constant mutation of SARS viruses are also troubling. In the final weeks of 2020, there was two significant SARS-CoV-2 mutations, the UK’s B.1.1.7 and South Africa’s 501.V2. Both are more infectious than their progenitors. If we understand what is causing SARS pathogens to materialize and mutate, then we can try to prevent future pandemics from this coronavirus.

Destruction of Nature

The UN and World Health Organization suggest that, in general, pandemics result from the destruction of nature. Environmental scientists also argue that less biodiversity will eventually lead to more disease. We know that the state of biodiversity is bad, but what can we do to turn things around? For one, destructive development projects are often subsidized by governments and international monetary organizations, so this form of socialized capitalism has to end. To preserve biodiversity, it is critical to restore and respect indigenous land rights. Also, an important economic lesson that business owners in urban areas should learn is that investing some of their profits in preserving nature, forests and ecosystems will enable them to remain in business in the long run. This is because protecting biodiversity can help to prevent future health pandemics and economic crises that can result in loss of market and business failure.

Are Animal Wet Markets to Blame?

In addition to the general cause of pandemics, it would be useful to know if there was a specific vector that caused SARS-CoV-2? Did this infectious virus originate in a food animal wet market or on a particular factory farm? The exact cause of transmission is yet unknown, but if food animal production is to blame, then reducing demand for animal products has to be part of the SARS solution. However, governments and banks are expending billions of dollars to subsidize factory farms and promote carnism as part of economic growth. This funding of future pandemics has to stop. Just like we have to de-fund fossil fuel companies to stop global warming, in order to decrease the chance of more SARS pandemics arising, funding agencies must recognize that industrial animal agriculture has to be curtailed.

Failure of Herd-immunity

One vital lesson of 2020 relates to the failure of an open economic policy and trying to develop natural immunity to a SARS virus in the general population. Sweden (pop. 10 million) followed a herd-immunity plan with little official restrictions. By the end of the year, this national approach resulted in 437K infections and 8,700 deaths from COVID-19. Sweden's neighbors had much lower COVID-19 death figures in 2020. For example, there were only 450 deaths in Norway, and 1,400 in Denmark. In comparison, Australia (pop. 25 million) with double the population of Sweden, implemented strong lockdown measures, like business and school closures and mandatory mask-wearing. By the end of the year, Australia's response resulted in far lower infections and fatalities, 28K cases and 900 deaths from COVID-19. Sweden's policy was irresponsible since it resulted in 15 times the number of SARS-CoV-2 cases and 10 times the number of COVID-19 fatalities as Australia. This shows that trying to achieve natural herd-immunity is a poor response to SARS viruses, with deadly consequences.

Strong Lockdowns Work

An important lesson learned in 2020 relates to the effectiveness of strong lockdown policies. To stop infections from getting out of control, it is important to immediately address the problem by shutting down the economy and halting the movement of people. Countries that had the most success in limiting the number of SARS-CoV-2 infections in 2020, like China (87K), Australia (28K), New Zealand (2,181) and Taiwan (812), did so with strong lockdown measures.[2] And, regions that had the least success in limiting the rise in SARS-CoV-2 cases by the end of the year, like Europe, North America and South American, implemented limited lockdown measures, with fewer business and school closures.

Another lesson learned from 2020, is that as SARS-CoV-2 spreads in a country, it becomes increasingly deadly. This is evident in the nationally reported figures on COVID-19 deaths. Although countrywide levels of testing and transparency vary, we can learn a lot by looking at COVID-19 fatalities per million people in 2020.[2] The number of deaths in the European Union (EU), US, Mexico and South America are far beyond the figures in Asian countries that have managed to limit the spread of the virus. Let's examine the numbers.

In Depth: European Union

Many Western European countries experienced an infection surge in the Spring, and implemented strong lockdown measures. Most states were fully reopened a few months later after flattening the SARS-CoV-2 curve. But, after the Summer lull, cases began to rise again with deadly consequences by the end of 2020. For example, France (pop. 67 million) had 2.6 million total SARS-CoV-2 infections and 988 deaths per million people from COVID-19. At one point during the Spring peak, France had around 975 deaths per day. But this number dropped during the Summer to as few as 8 deaths per day. At the end of the year, the fatality rate was back up, and above the Spring peak. The UK (pop. 66 million) had 2.7 million cases in total, and a fatality rate of 1070. Italy (pop. 60 million) had 2.1 million infections and 1217 deaths per one million people. Italy was among EU countries with the highest fatality rate from the virus. And, Spain (pop. 47 million) had 1.9 million cases and a COVID-19 fatality rate of 1084 by the end of 2020.

Most Central and Eastern Europe states avoided the worst of the first coronavirus wave in the Spring. However, at the end of 2020, these nations were experiencing some of the most rapid spread of SARS-CoV-2 in the world. For example, Slovenia (pop. 2 million) had a total of 150 COVID-19 deaths as of October 1st, but then, over the next 10 weeks, that figure jumped to over 2,000. As the year closed, the country had 125K infections, 2.8K deaths, and a high fatality rate of 1,365 deaths per million people.

Compared to these high SARS-CoV-2 case numbers and morbidity rates, some EU countries maintained preventive measures throughout the Summer and Fall, which resulted in less infections and deaths. For example, Germany (pop. 83 million) had 1.7 million cases and a fatality rate of 396 deaths per million people. Denmark (pop. 6 million) had 170K cases and a fatality rate of 216. And, Norway (pop. 5 million) had 51K infections and 80 deaths per million people from COVID-19. Germany, Denmark and Norway implemented stronger lockdowns measures for longer periods of time, which reduced their numbers, compared to EU countries with higher fatality rates. This trend suggest that more open policies results in more deaths from this pandemic.

In Depth: North and South America

During this unprecedented year, in general, countries in North and South America remained mostly open with limited lockdowns, which resulted in higher COVID-19 fatality rates. For example, the USA (pop. 330 million) had 20 million SARS-CoV-2 cases and a COVID-19 fatality rate of 1034 deaths per million people. Brazil (pop. 210 million) had 7.7 million infections and a fatality rate of 912. Columbia (pop. 50 million) had 1.7 million cases and a death rate of 843. Argentina (pop. 45 million) had 1.6 million cases and a fatality rate of 961. Mexico (pop. 126 million) had 1.4 million cases and a death rate of 968. Peru (pop. 32 million) had 1 million infections and a fatality rate of 1139. And, Bolivia (pop. 11 million) had 167K cases and 783 deaths per million people.

Fatality rates in the Western Hemisphere are as high as those in the worse EU countries, but there are a few exceptions. Like Germany, Canada (pop. 37 million) took strong lockdown and preventative measures, which resulted in 610K cases and a fatality rate of 410. The states with the first and second highest number of total COVID-19 deaths are both in the Western Hemisphere - the USA (350K) and Brazil (195K). Tellingly, the machismo leaders of both countries downplayed the SARS-CoV-2 pandemic and resisted lockdowns. Their inaction show that doing little to slow the spread of SARS viruses leads to more deaths.

In Depth: Asia

In the East, where SARS-CoV-2 supposedly originated, COVID-19 fatality rates are far lower than those in the West. Asian countries have more experience in dealing with infectious disease, compared to the West. For example, a SARS-associated coronavirus, originated in China in 2002, and killed more than 800 people around the world by 2003. Asian countries have prior experience with the SARS virus, so there is more health compliance, like avoiding contact, mask-wearing and isolation. One exception is India, which has the third highest COVID-19 deaths (178K). With 107 deaths per million people, India also has the highest COVID-19 fatality rate in Asia. One main reason is that India's strong lockdown policy triggered a mass migration of laborers from urban areas that spread the virus to rural areas. Better planning and support for workers could have limited the spread, but India's death rate is still almost 10 times less than that of the UK and US.

Although Asian countries have larger populations, their SARS-CoV-2 case and morbidity numbers in 2020 were much lower than countries in the West. For example, the Philippines (pop. 106 million) had 475K cases, 9K deaths, and a COVID-19 fatality rate of 84 deaths per million people. Indonesia (pop. 267 million) had 770K infections, 22K deaths and a death rate of 80. Nepal (pop. 28 million) had 262K cases, 1.8K deaths, and a fatality rate of 63. Myanmar (pop. 54 million) had 126K infections, 2.7K fatalities, and a rate of 48 deaths per million people.

In Bangladesh (pop. 161 million), there were 516K cases of SARS-CoV-2, 7.5K deaths from COVID-19, and a fatality rate of 45. Pakistan (pop. 212 million) had 490K infections, 10.5K deaths and a fatality rate of 46. Japan (pop. 126 million) had 243K cases, 3.5K fatalities and a rate of 25 deaths per million people. South Korea (pop. 51 million) had 64K infections, 1K deaths and a fatality rate of 17, and China had 3 deaths per million people. In Oceania, the rates of death from the virus are lower still. Australia's COVID-19 fatality rate was 35, and New Zealand (pop. 5 million) had 2.1K infections, 25 deaths and a fatality rate of 5 deaths per million people. These figures show that lockdowns and preventive measures were effective in reducing morbidity rates in the East.

In Depth: West Asia and Africa

West Asia was slow to implement lockdown measures in 2020, and many restrictions were not followed or enforced. There is an uneven distribution of COVID-19 fatality rates per million people across the region. For example, in Iran (pop. 82 million), there were 1.2 million infections of SARS-CoV-2, 55K deaths from COVID-19, and a high fatality rate of 650 deaths per million people. Turkey (pop. 82 million) had 2.2 million cases, 21K deaths, and a fatality rate of 250. Saudi Arabia (pop. 33 million) had 363K infections, 6.2K deaths, and a fatality rate of 175. In Egypt (pop. 98 million), there were 143K cases, 7.8K deaths, and a low fatality rate of 76.

Lockdowns and restrictions were uneven in Africa as well. And fatality rates per million people vary widely on the vast African continent, from high to low. For example, South Africa (pop. 58 million) had 1.1 million SARS-CoV-2 infections, 30K deaths from COVID-19, and Africa's highest fatality rate at 472 deaths per million people. Tunisia (pop. 12 million) had 144K cases, 4.8K deaths and a fatality rate of 390. Morocco (pop. 36 million) had 430K infections, 7.5K deaths and a fatality rate of 199. In contrast, Kenya (pop. 51 million) had 95K cases, 1.5K deaths, and a fatality rate of 31 COVID-19 deaths per million people. And Ghana (pop. 30 million) had 55K infections, 335 deaths and a fatality rate of 10 deaths per million people. Unlike West Asian states, most African countries have managed to limit their number of infections and deaths. Many African countries have decades of experience dealing with infectious disease, like hepatitis, HIV, Ebola and cholera, so there is greater health compliance, like mask-wearing and isolation.

Comorbidity Factors

A third basic question from 2020 relates to comorbidities and other issues that can lead to higher COVID-19 fatality rates. The Center for Disease Control (CDC) state that some pre-existing health conditions can increase the likelihood of illness and death from the disease.[3] For example, cancer, chronic obstructive pulmonary disease, heart disease, chronic kidney disease, and severe obesity can lead to more severe symptoms and outcomes. Age and sex are factors important as well. The length and amount of exposure to the virus is significant, and the weather is a key driver, as colder Winter temperatures have resulted in higher transmission and morbidity rates.

Higher GDP Equals More Deaths

One other lesson we can learn about the difference in the death rates per million people in countries and regions across the globe is that Western and developed nations have higher death rates than Eastern states and those that are less developed. This is shown is a chart comparing death rates and gross domestic production (GDP). On the GDP chart, the countries with higher fatality rates skew towards the top-right, consisting of high GDP states in the EU, like Belgium, Germany, Ireland, Denmark, and France, plus the USA and Canada. On the other hand, countries with lower death rates per million people skew towards the bottom-left, consisting of low GDP states in Africa and Asia, like Liberia, Ghana, Afghanistan and Vietnam.

Is this GDP and morbidity difference similar to the distinction between higher fatalities in Western states and lower fatalities in Eastern countries that have more experience with infectious diseases and compliance to health regulations? On the chart, many Asian countries are on the right in terms of GDP and in the middle in regards to mortality, for example, Japan, Malaysia and Singapore. These Asian countries are more similar to Western states than lower GDP countries in Africa with lower fatality rates per million people.

Carnism and Comorbidities

The co-relation between higher GDPs and higher fatality rates per million people is surprising. Higher GDP countries have advanced medical resources and care, with more doctors, nurses, ICU beds, ventilators, etc., than lower GDP states. So the death rates in rich nations should be lower, not higher. One explanation for the higher death rates relates to diet. Specifically the over-consumption of animal products in higher GDP countries leads to obesity and comorbidities that increase the risk of more severe illness and death from COVID-19. For example, the CDC state that over 40% of adults in the US are obese. The UN FAO chart on meat consumption show that countries with higher food animal consumption are countries with higher GDP, like the US, Canada and the UK. The USA is the top consumer of food animals, and it also has the most COVID-19 deaths.

Conclusion

Food animal consumption is linked to the origin of deadly SARS viruses, and also to higher fatality rates. Yet, there no calls to reduce animal consumption. If the over-consumption rates of the wealthiest nations are not curbed, this will lead to increasing obesity and more COVID-19 deaths. There is little evidence that food animal consumption is slowing, and average GDP countries are starting to follow the same trend as high GDP nations in terms of diet and disease.


Moses Seenarine is the author of Meat Climate Change: The 2nd Leading Cause of Global Warming (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC



[1] Staff. 2020. Coronavirus Resource Center, Johns Hopkins University of Medicine. Dec. 31.

https://coronavirus.jhu.edu/

[2] Staff. 2020. Our World in Data. Global Change Data Lab, University of Oxford.

https://ourworldindata.org/

[3] Ogden, Cynthia. 2015. "Prevalence of Obesity Among Adults and Youth: United States, 2011–2014." CDC. November 



Over-Consumption Curse

Meat Society: Number 19 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC


As part of due course, many in the over-consumption class suffer from stressful personal and social problems. Individuals often face several personal costs associated with high levels of consumption, like (i) financial debt; (ii) time and stress associated with working to support higher consumption; (iii) time required to clean, upgrade, store, or otherwise maintain possessions; and (iv) the ways in which consumption replaces time with family and friends.

On top of this, aggressive pursuit of a mass consumption society typically correlates with a decline in health indicators in many countries, as obesity, crime, and other social ills surge. One defining characteristic of the consumer class is their marked escalation in food animal consumption.

Appallingly, across the globe, there is a rapid increase in rates of obesity and the numbers of overweight individuals. To solve this health crisis, an array of large-scale programmatic and policy measures are being pursued in a few countries, although, animal consumption remains sacrosanct from change.

Type 2 diabetes is a global public health crisis that threatens the economies of all nations, particularly developing countries. Fueled by rapid urbanization, nutrition transition, and progressively sedentary lifestyles, this epidemic has grown in parallel with the worldwide rise in obesity. Asia's large population and rapid economic development have made it an epicenter of the diabetes epidemic.(488)

Interactions between Westernized diet, lifestyle and genetic background may accelerate the growth of diabetes. On the positive side, Type 2 diabetes is largely preventable through diet and lifestyle modifications. Putting this into practice, though, will require profound changes in public policies, food and health systems. In addition to obesity and diabetes, there are other chronic health problems associated with food animal over-consumption, such as cancer and heart disease.

Few countries are engaged in serious efforts to prevent the dietary and environment challenges being faced. Around 65 percent of US adults are overweight or obese, leading to an annual loss of 300,000 lives and, at least $117 billion in health care costs in 1999.

Another aspect of over-consumption is increasing consumer debt. In 2002, 61 percent of US credit card users carried a monthly balance, averaging $12,000 at 16 percent interest. This amounts to about $1,900 a year in finance charges, which is in excess of the average per capita income in at least 35 countries.

If the over-consumption rates of the wealthiest nations are curbed, this may slow the rate of expansion everywhere else. Be that as it may, there is little evidence that their consumption is slowing, even in the US, where most people are amply supplied with the goods and services needed to lead a dignified life.

Governments could rein in high consumption by removing economic subsidies for everything from gas-guzzling vehicles to suburban home-building. Currently, government economic subsidies total around $1 trillion globally each year.(489) And since over-consumption translates into higher warming, it should be taxed to pay for mitigation and adaptation.


Chapter 13: OVER-CONSUMPTION CLASS, page 130


Class and Global Diet

Meat Society: Number 18 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC


Global food insecurity is a problem of distribution, not just production. The poor eat less across the world, and there is more poor in the Global South. Around 17 percent of densely populated India is undernourished, even though per capita flesh consumption is relatively low. In contrast, fewer than five percent of people in the US, where 22 percent of the world’s cattle is raised, are at risk of going hungry.(486)

Overall, the clear trend globally is increasing food animal consumption among the urban middle class. Eating animal-based meals is a status symbol. Even with India's religious prohibitions against the eating of cow flesh, 'non-veg' has become a status symbol in the thriving cities. On top of this, across the world, people typically eat food animals as part of a feast, holiday or celebration.

School cafeterias in the Global North serve animal flesh every day, with few plant-based offerings. This raises expectations in children for a daily dose of animal protein. Even though plants are cheaper, a high-pressure, fast food lifestyle is causing adults to lose their taste for vegetables, and they are forgetting how to cook them. Poor adults have to use more of their scarce money for food.

Another aspect of class and diet is the economic gap between developed and developing countries is reflected in their animal consumption. While people in developed countries fulfill upwards of half, 56 percent, of their protein needs from animal sources, people in developing countries obtain only 18 percent in this way.

Brazil, Russia, India, China and South Africa, the BRICS, are five big developing countries. Economic growth in the BRICS is reflected in their animal consumption, and together, they account for 40 percent of the world’s population. Between 2003 and 2012, BRICS animal consumption rose by 6.3 percent a year and is expected to rise by another 2.5 percent a year between 2013 and 2022.

Increase in food animals consumption affects different species. The global upsurge in carnism is mainly due to the expansion in poultry consumption. On a worldwide level, there was no gain in consumption levels of cow flesh from 1970-2000. This trend reflects the fact that while cattle consumption rose in developing countries such as China and Brazil, it fell modestly in North America, Oceania, and Europe.

Chicken consumption in China and India is determined by class and lifestyle to a larger extent, than by population growth. Similarly, in Russia, the world’s biggest cow carcass importer, demand depends on prosperity from oil and gas export revenues, since the population peaked in 1991, at around 150 million. While animal carcass is cheap in Brazil, it is expensive in South Africa. Several economic crises in South Africa have ensured that the rising demand for animal flesh is almost entirely limited to cheaper chicken carcass.

The world face increasing demand for food. Between 2005 and 2050, food demand may soar 59 to 98 percent higher than the UN Food and Agriculture Organization (FAO) estimate of 54 percent, from the 2005/2007 levels. There are many uncertainties, but food projections are more sensitive to socio-economic assumptions, than to climate warming or bioenergy scenarios.(487) The global middle-class is the key driver of food demand. 

The FAO range in food estimates is wide, in particular for consumption of animal calories - between 61 percent and 144 percent. This is due to differences in specifications, income, and price. With higher population and lower economic growth, consumption per capita drops on average by 9 percent for crops and 18 percent for livestock. This shows that a consumption tax on food animals can greatly lower climate-altering gases.


Chapter 13: OVER-CONSUMPTION CLASS, page 130


Global Substitution Diets

Meat Society: Number 17 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC


One main aspect of over-consumption is the substitution of animal-base foods for plant-based foods as income and wealth swells. Food animal over-consumption is a increasing problem among the world's growing middle class. For example, there are over 300 million obese adults worldwide, up from 200 million in 1995.

Consumption habits have various environmental impacts, particularly on land. The planet has only 1.9 hectares (4.6 acres) of biologically productive land per person to supply resources and absorb wastes. In spite of that, the average person on Earth already uses 2.3 hectares (5.6 acres) worth. People's ecological footprints range from the 9.7 hectares (24 acres) claimed by the average American, to the 0.47 hectares (1.1 acre) used by the average Mozambican.(481)

According to the UN Food and Agriculture Organization (FAO), noteworthy improvements have been made in food consumption per person. During three decades, between 1969/1971 and 1999/2001, there has been an increase of almost 400 kcal per person, per day from 2,411 to 2,789 kcal, globally. All the same, at the lower end of the development spectrum, the poor regions of Sub-Saharan Africa saw only modest gains in their prevailing low levels of available food, while Middle Africa experienced a pronounced drop-off.

Despite the 16.5 percent addition to per person global caloric intake, some developing countries have declined further from what was already a very low per capita food consumption level. This was especially so in sub-Saharan Africa, in particular, Somalia, Burundi, Rwanda and Kenya.(482)

In terms of calories from major food commodities, there are monumental differences between developing and industrial countries. Between 1963 and 2003, developing countries had immense upsurges in the consumption of calories from animal-based foods (119%), sugar (127%) and vegetable oils (199%). China showed even bigger hikes in this 40 year period, especially in vegetable oils (680%), animal products (349%) and sugar (305%).

There has been a 62 percent spike in food animal consumption worldwide, with the biggest growth in the developing countries which had an average three-fold increase since 1963. China had a dramatic nine-fold ramp-up and Eastern Asia had a five-fold expansion in the supply of animal food calories per capita.

In industrial countries, over the same four decades, vegetable oil consumption rose appreciably (105%). Animal-based products such as pig sausages, cow burgers, pig pies, etc., account for almost half of all carcass consumed in developed countries. In the US, over half of the energy intake, 58 percent of food consumed, comes from ultra-processed foods such as sodas, and milk-based drinks; cakes, cookies and pies; salty snacks; frozen and shelf-stable plates; pizza and breakfast cereals.(483)

In both developing and industrial countries, there were declines for pulses, roots, and tubers between 1963 and 2003. This is part of the ‘substitution’ effect, a shift in the consumption of foodstuffs with no major variation in the overall energy supply. This shift is primarily from carbohydrate-rich staples like cereals, roots, and tubers, to vegetable oils, animal products, and sugar.

Consumption of pulses plummeted globally, and in particular among developing countries. For instance, there was a 10-fold drop-off in China, from 30g (1 oz) per capita per day in 1963, to 3g (0.1 oz) in 2003. At the same time, there was a sharp plunge in sweet potatoes intake in many developing countries, accompanied by a parallel marked rise in potatoes. In China sweet potato dwindled down from 227g (8 oz) in 1963, to 99g (3.5 oz) in 2003, while intake of potatoes rose from 25g (1 oz) to 96g (3.3 oz) per capita per day.(484)

In Africa and parts of Asia, cereals supply up to 70 percent of energy intake. By comparison, in the UK, cereals provide only 30 percent of energy intake and 50 percent of available carbohydrates. Globally, rice consumption has seen negligible gains. This is due in large part to declines in countries that have predominantly rice-based diets, particularly China and other East Asian countries.

While production of fruits and vegetables has been expanding over recent years, inadequate consumption remains a problem worldwide. States need to help to make fruits and vegetables accessible and affordable to a larger extent for poor households as well as ensure access to markets by smaller producers.

The WHO recommends that average fruit and vegetable intake should be at least 400g (14 oz) per person per day. But in Europe and Australia, fruit and vegetable consumption remains well below the recommended levels for adults. What's more, in developed countries, the poor eat a smaller quantity of fruit and vegetables.(485)

Chapter 13: OVER-CONSUMPTION CLASS, page 129


Urbanization and Carnism

 

Meat Society: Number 15 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC


Rapid urbanization has had, and will continue to have, a profound effect on food consumption patterns. There is higher caloric intake because cities offer a greater range of food choices. This is combined with lower-energy expenditure in urban jobs, and a reduction of physical activity of 10 to 15% compared with rural work. Plus, there is greater inactivity in leisure time.(473)

Urbanization affects lifestyle and food consumption by modification of dietary behavior. To boot, urbanization in the next few decades will primarily be a problem in developing countries that are unprepared to deal with an increasingly unhealthy demographic.(474) Obesity and diabetes are advancing faster in cities than in rural areas of the Global South.

The urbanization niche has been seized by the fast food industry by providing quick access to cheap take-away meals. These meals are crafted to satisfy consumers' demand for foods high in salt, fat, and sugar. As such, the most popular fast food items, like hamburgers, pizzas, and fried chicken, have 30% of their food energy as fat.

In China, the expansion in the consumption of animal products is higher for urban residents compared with those living in the countryside. In 1997, intake of animal foods was greater for urban people, 178 g (6.2 oz) per capita per day, compared with rural dwellers at 116 g (4.1 oz) per capita per day).(475)

Only 10 or 20 years ago, in many parts of the world, consuming the flesh of food animals was a luxury. But animal-based foods are now a part of the daily diet for a growing number of the middle class in developing countries. Big supermarket chains such as Walmart from the USA, France’s Carrefour, the UK’s Tesco and Germany’s Metro are conquering the globe. Their expansion has sparked massive investments by domestic supermarket companies. Fast food restaurants and chains are also rapidly advancing.

In regions where supermarkets have made major inroads into the food retailing system, the entire food economy, from farm-to-fork, is affected. For urban consumers, supermarkets can bring nutritional benefits with substantial improvements in the standards of food quality and safety.

Using fossil fuel, supermarkets have solved the problem of keeping animal-based products chilled at competitive prices. Cheaper and safer animal-based foods becomes available to the urban poor because of supermarkets, which induces demand. Stores bring the benefit of convenience as well, a particularly attractive feature to the urban consumer. In addition to population growth, urbanization and access are key structural forces driving carnism.


Chapter 13: OVER-CONSUMPTION CLASS, page 126

Sounding the Alarm on Carnism

Meat Society: Number 14 in a series exploring issues related to curbing demand for animal products, an important climate change solution for individuals and nations alike, especially in Western states where meat and diary consumption dwarfs other regions.

Excerpt from Meat Climate Change: The 2nd Leading Cause of Global Warming by Moses Seenarine, (2016). Xpyr Press, 348 pages ISBN: 0692641157 http://amzn.to/2yn7XrC

Hundreds of ecologists and agricultural scientists are actively sounding the alarm by highlighting calls for action on animal-based agriculture. A growing body of research points out that eating animal products is inefficient from the perspective of land, water and energy. And, intake of food animals is equally undesirable from a socio-economic, health, biodiversity, climate warming, and animal welfare point of view.

There are hundreds of researchers investigating the link between climate warming and animal-based diets, and over four dozen studies are listed below. These papers are a limited sample of a large body of research encompassing diverse disciplines, from nutrition to environment. Several areas of this literature are beyond the scope of this article, like animal welfare and advocacy, but they are no less consequential.

(1) In 2001, the World Bank began to be critical of funding for large-scale livestock projects due to their impacts on the environment and on social equality. The World Bank strategy recommended that institutions should “avoid funding large-scale commercial grain-fed feedlot systems and industrial milk, pork and poultry productions”(376)

(2) In 2003, Pimentel contended that the dietary pattern in North America is unsustainable. Producing the equivalent measure of protein from animals takes 11 times the amount of fossil fuel and 100 times the volume of water than vegetable protein.(377) (3) In 2007, a group of health researchers concluded that to prevent greenhouse gas (GHG) pollution, the worldwide consumption level of animal products and the intensity of emissions from food animal production must be reduced.(378)

(4) In 2008, Tara Garnet argued that animal-based meals must be rationed to four portions a week to avoid run-away global warming. Garnet concluded, "Efforts to encourage us voluntarily to change will not achieve what is needed in the time available. Regulatory and fiscal measures that change the context within which we consume are vital."(379)

(5) Gowri Koneswaran and Danielle Nierenberg concluded that to mitigate climate-altering gases from the food animal sector, immediate and far-reaching changes in production practices and intake patterns “are critical and timely.”(380) (6) The film, Meat the Truth, was presented in London in 2008, and is available in 13 languages in 16 countries. Meat the Truth was the first documentary to link livestock farming and GHG pollution. The book Meat the Truth, is the continuation of the documentary. The anthology contains papers by prominent food scientists, such as Geoff Russell, Elke Stehfest, Barry Brook and Harry Aiking. Researchers from Wageningen UR, who reviewed the calculations of the film, by request of a Dutch Minister, submitted to the collection as well.(381)

(7) In 2009, Marlow's team determined that a nonvegetarian diet required 2.9 times more water, 2.5 times more primary energy, 13 times more fertilizer, and 1.4 times more pesticides than did a vegetarian diet. And the greatest contribution to the differences came from the consumption of cow flesh.(382) (8) Lord Stern, author of the 2006 Stern Review, on the cost of tackling planetary heating, and a former chief economist of the World Bank, stated that the 2009 climate conference in Copenhagen should have called for a hike in the price of animal products and other foods that play a part in climate warming.(383)

(9) John Powles argued that finding paths to globally sustainable patterns of animal food production and consumption should be central to climate change policy deliberations. He wrote, “On grounds of geopolitical feasibility (as well as equity), there is no obvious alternative to a policy of ‘contraction and convergence’ - contracting consumption levels in rich countries to leave room for consumption in poor countries to converge upwards.”(384)

(10) A 2009 examination by the Netherlands Environmental Assessment Agency determined that global food transition to less animal consumption, or even a complete switch to plant-based protein food, would have a dramatic effect on land use. Up to 2.7 billion hectares (about 10.4 million square miles) of pasture and 100 million hectares (about 386,000 square miles) of cropland could be abandoned.(385) If implemented, by 2050 universal veganism would cut agriculture carbon dioxide (CO2) by 17%, methane (CH4) by 24%, and nitrous oxide (N2O) by 21%. This would cause a large carbon uptake from regrowing vegetation and reduce the mitigation costs to achieve a 450 ppm CO2e stabilization target by about 50% in 2050.

(11) Sonesson's team in 2010 noted, "One aspect that potentially is one of the most powerful in combating food’s impact on climate change is the choice of products, i.e. our diets. Since the differences in life cycle GHG emissions are so very large between products fulfilling similar nutritional functions, the scope for improvement is large."(386)

(12) A 2010 UNEP report stated: "Impacts from agriculture are expected to increase substantially due to population growth increasing consumption of animal products. Unlike fossil fuels, it is difficult to look for alternatives: people have to eat. A substantial reduction of impacts would only be possible with a substantial worldwide diet change, away from animal products."(387) The lead author of the UNEP report said: "Animal products cause more damage than construction minerals such as sand or cement, plastics or metals. Biomass and crops for animals are as damaging as fossil fuels."(388)

(13) Katherine Richardson and her co-authors noted in their 2011 book that by contributing to global warming “livestock plays a significant role in effecting ecosystem services at global scales by changes such as modified precipitation patterns, warmer climates, carbon storage in soils, changes in extreme events and other predicted feedback changes of global warming with results from local to global scales.”(389)

(14) In 2011, an Australian team showed that the efficiency of grains are 146 to 560 times that of cattle on an emissions intensity basis, and cattle can emit up to 22 pounds of CO2e per pound of flesh.(390) (15) The lead editor of the European Nitrogen Assessment, Mark Sutton, said, “Nearly half the world’s population depends on synthetic, nitrogen-based fertilizer for food but measures are needed to reduce the impacts of nitrogen pollution. Solutions include more efficient use of fertilizers and manures, and people choosing to eat less meat.”(391)

(16) A Swedish group calculated the GHG footprint of 84 common food items of animal and vegetable origin. It covered CO2e pollution involved in farming, transportation, processing, retailing, storage and preparation. The team observed that animal-based foods are associated with higher energy use and GHG outflows than plant-based foods.(392)

(17) Wirsenius concluded that reducing the intake of meat and cow's milk will be indispensable for reaching the 2°C (3.6°F) target with a high probability. He suggested that taxing animal flesh would lead to significant GHG reductions.(393) In a similar way, (18) Foley calculated that shifting to an all-plant diet could increase food calories by 50%, a staggering 3 quadrillion calories per year, and significantly lower GHG emissions, biodiversity losses, water use and water pollution.(394)

(19) Weiss and Leip suggested in 2012 that for effective reduction of GHG emissions from livestock production, releases occurring outside the agricultural sector need to be taken into account. And reduction targets should address both the production side as defined by IPCC sectors, and the consumption side.(395)

(20) A Union of Concerned Scientists report in 2012 warned, “Clearing forest for pastures makes money, but it also causes global warming pollution.” The effects of tropical deforestation are responsible for about 15% of the world’s heat-trapping emissions. And three-fifths of the world’s agricultural land is used for cattle that yields less than 5% of humanity’s protein.(396)

(21) Also in 2012, researchers at the University of Exeter argued that encouraging people to trim back the quantity of food animals they eat could keep global temperatures within the 2°C (3.6°F) threshold. Tom Powell said, “Our research clearly shows that recycling more and eating less meat could provide a key to re-balancing the global carbon cycle.”(397) Powell continued, “Meat production involves significant energy losses - only around 4% of crops grown for livestock turn into meat. By focusing on making agriculture more efficient and encouraging people to reduce the amount of meat they eat, we could keep global temperatures within the two degrees threshold.”

(22) Nijdam's analysis of over 100 protein foods ascertained that the carbon footprint of the most climate-friendly, plant-based protein sources is up to 100 times smaller than those of the most climate-unfriendly, animal-based protein sources.(398) (23) A 2012 UK study concluded that food policies must focus on demand rather than supply-side measures to address GHGs as a global issue.(399)

(24) One study found that a non-vegetarian diet uses about 2.9 greater volume of water, 2.5 greater mass of primary energy, 13 times the sum of fertilizer, and 1.4 extra volume of pesticides. And it generates GHG pollution to a far greater extent than a vegetarian diet.(400) (25) Another group calculated that 22% and 26% of GHG savings can be made by moving from the current UK-average diet to a vegetarian or vegan diet, respectively.(401)

(26) Shifting crops from animal feed to human food could serve as a 'safety net' when weather or pests create shortages. Davidson, director of the Woods Hole Research Center, reasoned that the developed world will have to cut fertilizer use by 50% and persuade many consumers to stop eating so many food animals in order to stabilize nitrous oxide (N2O) releases by 2050.(402)

In 2013, (27) Sutton and Dibb calculated that (i) almost a third of global biodiversity loss is attributable to livestock production, (ii) food animal intake is responsible for nearly half of the UK food GHG emissions, and (iii) the estimated cost to the National Health Service in early deaths is £1.28 billion ($1.82b).(403) 

On a global scale, (28) Emily Cassidy projected that a shift from crops destined for animal feed and industrial uses toward human food could increase available calories by 70% and feed an extra 4 billion people each year.(404) (29) A Swedish report stated that policy makers should discuss and try to influence what their citizens eat.(405) (30) And, a Danish study found that taxes are a low cost way of promoting climate friendly diets without large adverse health effects.(406)

(31) One more study concluded, “The emission cuts necessary for meeting a global temperature-increase target of 2° might imply a severe constraint on the long-term global consumption of animal food. Due to the relatively limited potential for reducing food-related emissions by higher productivity and technological means, structural changes in food consumption towards less emission-intensive food might be required for meeting the 2° target.”(407)

(32) In 2014, the "Meat Atlas" by Friends of Earth Europe, claimed that livestock directly or indirectly produces nearly 33% of the anthropogenic climate-altering gases.(408) (33) Also in 2014, the Chatham House report concluded that dietary change is essential if planetary heating is not to exceed 2°C (3.6°F).(409) 

(34) Researcher Aiking warned, "Under the current conditions of an unprecedented global population size it may be time to rethink issues such as consumer freedom (diet choice) compared with global food security, the use of 2.48 million tons of fish for cat food, and free trade."(410)

(35) Bajželj's model of agriculture related GHGs is one of the most robust experiments. The study warned that severe reductions in animal consumption are necessary, otherwise, agricultural GHG pollution will take up the entire world’s carbon budget by 2050, with animal agribusiness being a major contributor.(411)

(36) Tilman in 2014 projected that dietary trends, if unchecked, would be a major contributor to an 80% surge in global agricultural GHGs by 2050. This means all other sectors, like energy, industry, and transport, would have to be zero carbon by then, which is highly unlikely.(412) (37) Eshel's investigation showed that the biggest intervention people could make towards reducing their carbon footprints are not to abandon cars, but to eat significantly less red meat.(413)

(38) West's team calculated agriculture emissions of climate-altering gases are between 20% and 33% of total manmade GHGs - from deforestation, methane, and fertilizers. In contrast, by not feeding crops to domesticates, using fertilizer where it is needed, and avoiding overuse, countries could bring down GHG outflows markedly.(414)

(39) Ripple and other scientists suggested that just like a carbon consumption tax, a tax on animal flesh could encourage people to eat less of them.(415) (40) Elin Hallström's team found that simply reducing carcass over-consumption to dietary guidelines will lower GHG pollution from livestock production in Sweden from 40% to 15–25% by 2050, and cropland use from 50% to 20–30%.(416)

(41) Soret's health-based 2014 study used a nonvegetarian diet as a reference, and found that reductions in GHGs for semi-vegetarian diet was 22%, and for vegetarian diets it was 29%. On top of this, the mortality rates for non-vegetarians, semi-vegetarians, and vegetarians were 6.66, 5.53, and 5.56 deaths per 1000 person-years, respectively.(417)

(42) In 2015, Elin Röös's team assessed three animal-based diets - a diet corresponding to Nordic recommendations, the current average Swedish diet, and a low carbohydrate-high fat diet. They determined that all three diets are above the sustainable level of climate impact.(418) (43) Another Swedish study determined that taxes on animal flesh and cow's milk could reduce emissions of GHG, nitrogen and phosphorus, by up to 12% from this sector.(419)

(44) The 2015 Chatham House report concluded, “Interventions to change the relative prices of foods are likely to be among the most effective in changing consumption patterns.” The report adds that countries should aim "to increase the price of meat and other unsustainable products" through a carbon tax.(420) And (45) Hallström's 2015 review found that dietary change can reduce the sector's GHG emissions and land use demand by up to 50%.(421)

(46) Talia Raphaely's edited collection of articles in 2015 includes one by Robert Goodland, who argued that food animals contribute 51% of GHGs. Raphaely describes how carnism impacts all aspects of human life and humanity's long-term survival prospects. Yet, society continues to ignore the negative impacts of consuming animal flesh and the sector's high contribution to global GHG emissions.(422)

(47) In 2016, a large-scale study showed that methane (CH4) from manure, ruminants, landfill, and waste, and nitrous oxide (N2O) from crop cultivation, are offsetting the land carbon dioxide (CO2) sink by two-fold.(423) (48) Another 2016 study concluded, “Deep cuts, by 50% or more, in ruminant meat consumption… is the only dietary change that with high certainty is unavoidable if the EU climate targets are to be met.”(424)

(49) Chalmers' team determined that livestock carbon consumption taxes in Scotland can reduce household demand for food animal products and result in a 10.5% reduction in Scottish food GHG emissions.(425) Also in 2016, (50) Springmann found that adhering to health guidelines on food animal consumption could cut global food-related emissions by nearly a third by 2050. Moreover, widespread adoption of a vegetarian diet would bring down emissions by 63%, and veganism by 70%.(426)


Chapter 11: WHAT CRISIS? pages 108-111

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