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Children of the Sun: A History of Humanity's Unappeasable Appetite for Energy
A master historian's spirited survey of humanity's strategies for tapping sun energy, past and future. We don't often recognize the humble activity of cooking for the revolutionary cultural adaptation that it is. But when the hearth fires started burning in the Paleolithic, humankind broadened the exploitation of food and initiated an avalanche of change. And we don't often associate cooking with drilling for oil, but both are innovations that allow us to tap the sun energy accumulated in organic matter. Alfred W. Crosby, a founder of the field of global history, reveals how humanity's successes hinge directly on effective uses of sun energy. But dwindling natural resources, global warming, and environmental pollution all testify to the limits of our fossil-fuel civilization. Although we haven't yet adopted a feasible alternative―just look at the embarrassment of "cold fusion" or the 2003 blackout that humbled North America―our ingenuity and adaptability as a species give us hope. 10 illustrations, map.
208 pages, Hardcover
First published January 17, 2006
24 people are currently reading
556 people want to read
About the author
Alfred W. Crosby
29 books81 followersAlfred W. Crosby Jr. was Professor Emeritus of History, Geography, and American Studies at the University of Texas at Austin, Harvard University and University of Helsinki.
Crosby studied at Harvard University and Boston University. He was an inter-disciplinary researcher who combined the fields of history, geography, biology and medicine. Recognizing the majority of modern-day wealth is located in Europe and the Neo-Europes, Crosby set out to investigate what historical causes are behind the disparity, investigating the biological factors that contributed to the success of Europeans in their quest to conquer the world. One of the important themes of his work was how epidemics affected the history of mankind.
As early as the 1970s, he was able to understand the impact of the 1918 flu pandemic on world history. According to Hal Rothman, a Professor of History at the University of Nevada, Las Vegas, Crosby “added biology to the process of human exploration, coming up with explanations for events as diverse as Cortés’ conquest of Mexico and the fall of the Inca empire that made vital use of the physical essence of humanity. In 1972 he created the term "Columbian Exchange" in his book of the same name. The term has become popular among historians and journalists, such as Charles C. Mann, whose 2011 book 1493: Uncovering the New World Columbus Created expands and updates Crosby's original work. Crosby was also interested in the history of science and technology.
He wrote several books on this subject, dealing with the history of quantification, of projectile technology, and the history of the use of energy. He said that the study of history also made him a researcher of the future. He was very much interested in how humankind could make the future a better one. He has taught at Washington State University, Yale University, the Alexander Turnbull Library in New Zealand, and twice at the University of Helsinki as a Fulbright Bicentennial Professor, most recently in 1997–98. He was appointed an academician by Finnish president Martti Ahtisaari. He retired from the chair of Professor Emeritus of History, Geography, and American Studies of the University of Texas at Austin in 1999. Crosby’s hobbies included birdwatching and jazz, on which topic he could lecture with great expertise. He was married to linguist Frances Karttunen.
Crosby studied at Harvard University and Boston University. He was an inter-disciplinary researcher who combined the fields of history, geography, biology and medicine. Recognizing the majority of modern-day wealth is located in Europe and the Neo-Europes, Crosby set out to investigate what historical causes are behind the disparity, investigating the biological factors that contributed to the success of Europeans in their quest to conquer the world. One of the important themes of his work was how epidemics affected the history of mankind.
As early as the 1970s, he was able to understand the impact of the 1918 flu pandemic on world history. According to Hal Rothman, a Professor of History at the University of Nevada, Las Vegas, Crosby “added biology to the process of human exploration, coming up with explanations for events as diverse as Cortés’ conquest of Mexico and the fall of the Inca empire that made vital use of the physical essence of humanity. In 1972 he created the term "Columbian Exchange" in his book of the same name. The term has become popular among historians and journalists, such as Charles C. Mann, whose 2011 book 1493: Uncovering the New World Columbus Created expands and updates Crosby's original work. Crosby was also interested in the history of science and technology.
He wrote several books on this subject, dealing with the history of quantification, of projectile technology, and the history of the use of energy. He said that the study of history also made him a researcher of the future. He was very much interested in how humankind could make the future a better one. He has taught at Washington State University, Yale University, the Alexander Turnbull Library in New Zealand, and twice at the University of Helsinki as a Fulbright Bicentennial Professor, most recently in 1997–98. He was appointed an academician by Finnish president Martti Ahtisaari. He retired from the chair of Professor Emeritus of History, Geography, and American Studies of the University of Texas at Austin in 1999. Crosby’s hobbies included birdwatching and jazz, on which topic he could lecture with great expertise. He was married to linguist Frances Karttunen.
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Displaying 1 - 26 of 26 reviews
February 2, 2018
All life requires energy to survive, and our primary source of energy is the sun, a fireball of nuclear fusion. On Earth, the plant people absorb this energy and convert it into simple carbohydrates. Humans and other animals extract these nutrients from edible plants, and/or from the flesh of plant eating animals.
Alfred Crosby’s book, Children of the Sun, presents a history of how humans access energy. It’s a good companion to his earlier book, Throwing Fire, a history of projectile use, spanning from thrown stones to nuclear weapons. Both discuss the rapid acceleration of innovation, population, and ecological impacts. This growing instability over the centuries is largely off the radar in our day-to-day lives. Most of our brain cycles are engaged in the here and now, a pushbutton wonderland of nonstop magic.
Crosby reminds readers of the obvious fact that fossil energy is finite, and the large, high quality deposits are approaching their finish lines. We are making little effort to wrap our heads around the notion that our high-impact energy-guzzling lifestyle has an expiration date. Instead, we pretend — with all our might — that the here and now is perfectly “normal,” and everything is excellent.
When the spirits of our wild ancestors observe today’s “normal” they see a nightmarish insane asylum. Powerful historians like Crosby can vaporize the walls of our madhouse, and allow us to perceive the hundreds of centuries of turbulent cultural evolution that preceded our birth. We can observe the spirit of progress transition from an occasional draft, to a strong wind, and the full-scale hurricane of today.
In the 200,000 years since the first Homo sapiens punched in at the time clock, almost all generations have been wild nomadic hunter-gatherers, living in a manner that was far simpler, and much closer to sustainable. For almost the entire human saga, this slower, gentler mode was the long term “normal.” But it wasn’t normal.
Some scholars have speculated that if space aliens had visited 100,000 years ago, humans would have appeared to be ordinary animals of no significance. Wrong! We were roasting steaks with domesticated fire, a spooky trick never performed by ordinary animals. Fire was domesticated prior to Homo sapiens, maybe 500,000 years ago, maybe a million, nobody knows.
When our ancestors burned biomass like wood, they were utilizing the solar energy stored by the tree. Fire provided some benefits. It intimidated hungry predators. It enabled our ancestors to survive in regions outside the tropics. It made cooking possible, a huge advance. Cooking partially predigests foods, making it easier for our guts to extract more nutrients from them. It also transforms a number of inedible substances into edible sources of nutrition. Chimps spend six hours a day chewing raw foods. Of course, progress is never free — fire making eventually led to huge unintended consequences, like megafauna extinctions, industrial civilization, the population explosion, and an unstable climate.
It’s fun to play “what if…” What if that first fire starter, who learned how to make sparks with friction, had been ripped to shreds by hyenas prior to his or her discovery? Without fire, furless hominids could not have survived in chilly non-tropical regions. The snow monkeys of Japan solved this challenge by evolving heavy winter coats. Would Homo sapiens have ever evolved at all, limited to a raw food diet? Would the Americas and Europe of today still be human-free wildernesses, home to healthy populations of mammoths, bison, and sabertooth cats?
Over time, our ancestors got better at hunting and basic survival. When some groups moved out of the tropics, they encountered conditions for which evolution had not fine-tuned them. They needed tighter shelters, warm clothing, and food storage for the lean seasons. Clever innovations could increase the odds for survival, and the cleverer we got, the better. Over the millennia, our addiction to innovation snowballed. Like an arms race, the groups possessing the most powerful juju were likely to displace or erase the bubbas with inferior juju.
And so, the clever ones spread around the globe. Growing numbers eventually ran out of uninhabited lands to colonize, leading to growing friction. Too much cleverness eventually led to what Ronald Wright called “the perfection of hunting.” By killing megafauna a bit faster than they could recover over the centuries, big game gradually got scarce. Our menu shifted toward small game, and then to aquatic edibles.
The domestication of plants and animals was another Earth-shaking innovation. We could now exploit solar energy more efficiently. More people could live on less land. Never before had we controlled so much energy. Population grew, spurring instability. The enslavement of animals like horses and oxen provided us with pack animals to carry stuff, and traction animals to pull stuff. No longer was the work in human communities performed solely by human muscle power. Enslaved animals could be exploited in many ways.
By A.D. 1000, clever ones had learned how to capture more energy with waterwheels, windmills, and sailing ships, but muscle power was still the primary energy. We were drifting toward the limits of utilizing solar energy via agriculture and burning wood. As forests disappeared, the clever ones began burning coal. Eventually, mineshafts reached the water table, and muscle powered gizmos were unable to remove the water fast enough. So, brilliant lads invented steam engines that could pump water and keep the mines dry.
Until maybe 1700, human society ran primarily on the muscle power of humans and animals. The steam engine, like the domestication of plants, animals, and fire, was a major advance with horrendous unintended consequences. The speed of innovation became a constantly accelerating whirlwind — locomotives, steamships, and multiple-spindle spinning machines. Lighting switched from the flickering hearth fire, to candles, then whale oil lamps, then coal gas, then kerosene, then electric lights.
Steam engines were pushed to the sidelines by internal combustion engines, which were used to power automobiles, tractors, trucks, locomotives, ships, and many other machines. Gasoline couldn’t run a sewing machine 100 miles away, but electricity could. We invented generators, installed power grids, built hydroelectric dams, and nuclear power plants. We invented telegraphs, telephones, radio, television. The herd grew explosively from one billion to two, three, four, five, six, seven… Zoom, zoom, zoom…
For a while, the Peak Oil doomsters made us nervous, with their predictions that the production of conventional oil would likely peak around 2005, which it did. But we got distracted by the growing production unconventional oil from oil shale (fracking) and tar sands, and returned to pretending that we have no limits. Let’s go shopping!
Thankfully, Crosby provides readers with an embarrassing birds-and-bees talk about EROEI (Energy Returned on Energy Invested). In the 1930s, the EROEI of oil production was 100:1 — it took one unit of energy to extract 100 units from the underground reserves. When he was writing in 2006, it had dropped to 17:1. Today, it’s less. Low EROEI means that lots of oil will be left in the ground forever, regardless of how high the price eventually rises. Imagine having a job that paid $100 per day, but the bridge toll to get there was $105.
Crosby offers us no silver bullet solutions. “Winning streaks are rarely permanent.” The easiest approach to our challenges is to continue living foolishly and hope for miracles. The smartest response would be sanity — limit population, cut consumption, live lightly, and abandon nuclear and fossil energy. “We have every reason to believe that we are capable of environmental sanity; but first we have to accept that the way we live now is new, abnormal, and unsustainable.”
It’s a short book, and very easy to read — no charts, graphs, or techno-jargon. Crosby describes the uncomfortable facts of life in a calm and non-hysterical way. I have zero complaints about it. It’s an excellent intro to energy. He briefly discusses the limitations of alternative energy sources. The limits are more thoroughly discussed in Renewable Energy Cannot Sustain a Consumer Society. The huge downside of nuclear energy is better addressed in Too Hot to Touch. Other energy-related books include Snake Oil, Cadillac Desert, The Big Flatline, The End of Growth, Techno-Fix, and Afterburn.
Alfred Crosby’s book, Children of the Sun, presents a history of how humans access energy. It’s a good companion to his earlier book, Throwing Fire, a history of projectile use, spanning from thrown stones to nuclear weapons. Both discuss the rapid acceleration of innovation, population, and ecological impacts. This growing instability over the centuries is largely off the radar in our day-to-day lives. Most of our brain cycles are engaged in the here and now, a pushbutton wonderland of nonstop magic.
Crosby reminds readers of the obvious fact that fossil energy is finite, and the large, high quality deposits are approaching their finish lines. We are making little effort to wrap our heads around the notion that our high-impact energy-guzzling lifestyle has an expiration date. Instead, we pretend — with all our might — that the here and now is perfectly “normal,” and everything is excellent.
When the spirits of our wild ancestors observe today’s “normal” they see a nightmarish insane asylum. Powerful historians like Crosby can vaporize the walls of our madhouse, and allow us to perceive the hundreds of centuries of turbulent cultural evolution that preceded our birth. We can observe the spirit of progress transition from an occasional draft, to a strong wind, and the full-scale hurricane of today.
In the 200,000 years since the first Homo sapiens punched in at the time clock, almost all generations have been wild nomadic hunter-gatherers, living in a manner that was far simpler, and much closer to sustainable. For almost the entire human saga, this slower, gentler mode was the long term “normal.” But it wasn’t normal.
Some scholars have speculated that if space aliens had visited 100,000 years ago, humans would have appeared to be ordinary animals of no significance. Wrong! We were roasting steaks with domesticated fire, a spooky trick never performed by ordinary animals. Fire was domesticated prior to Homo sapiens, maybe 500,000 years ago, maybe a million, nobody knows.
When our ancestors burned biomass like wood, they were utilizing the solar energy stored by the tree. Fire provided some benefits. It intimidated hungry predators. It enabled our ancestors to survive in regions outside the tropics. It made cooking possible, a huge advance. Cooking partially predigests foods, making it easier for our guts to extract more nutrients from them. It also transforms a number of inedible substances into edible sources of nutrition. Chimps spend six hours a day chewing raw foods. Of course, progress is never free — fire making eventually led to huge unintended consequences, like megafauna extinctions, industrial civilization, the population explosion, and an unstable climate.
It’s fun to play “what if…” What if that first fire starter, who learned how to make sparks with friction, had been ripped to shreds by hyenas prior to his or her discovery? Without fire, furless hominids could not have survived in chilly non-tropical regions. The snow monkeys of Japan solved this challenge by evolving heavy winter coats. Would Homo sapiens have ever evolved at all, limited to a raw food diet? Would the Americas and Europe of today still be human-free wildernesses, home to healthy populations of mammoths, bison, and sabertooth cats?
Over time, our ancestors got better at hunting and basic survival. When some groups moved out of the tropics, they encountered conditions for which evolution had not fine-tuned them. They needed tighter shelters, warm clothing, and food storage for the lean seasons. Clever innovations could increase the odds for survival, and the cleverer we got, the better. Over the millennia, our addiction to innovation snowballed. Like an arms race, the groups possessing the most powerful juju were likely to displace or erase the bubbas with inferior juju.
And so, the clever ones spread around the globe. Growing numbers eventually ran out of uninhabited lands to colonize, leading to growing friction. Too much cleverness eventually led to what Ronald Wright called “the perfection of hunting.” By killing megafauna a bit faster than they could recover over the centuries, big game gradually got scarce. Our menu shifted toward small game, and then to aquatic edibles.
The domestication of plants and animals was another Earth-shaking innovation. We could now exploit solar energy more efficiently. More people could live on less land. Never before had we controlled so much energy. Population grew, spurring instability. The enslavement of animals like horses and oxen provided us with pack animals to carry stuff, and traction animals to pull stuff. No longer was the work in human communities performed solely by human muscle power. Enslaved animals could be exploited in many ways.
By A.D. 1000, clever ones had learned how to capture more energy with waterwheels, windmills, and sailing ships, but muscle power was still the primary energy. We were drifting toward the limits of utilizing solar energy via agriculture and burning wood. As forests disappeared, the clever ones began burning coal. Eventually, mineshafts reached the water table, and muscle powered gizmos were unable to remove the water fast enough. So, brilliant lads invented steam engines that could pump water and keep the mines dry.
Until maybe 1700, human society ran primarily on the muscle power of humans and animals. The steam engine, like the domestication of plants, animals, and fire, was a major advance with horrendous unintended consequences. The speed of innovation became a constantly accelerating whirlwind — locomotives, steamships, and multiple-spindle spinning machines. Lighting switched from the flickering hearth fire, to candles, then whale oil lamps, then coal gas, then kerosene, then electric lights.
Steam engines were pushed to the sidelines by internal combustion engines, which were used to power automobiles, tractors, trucks, locomotives, ships, and many other machines. Gasoline couldn’t run a sewing machine 100 miles away, but electricity could. We invented generators, installed power grids, built hydroelectric dams, and nuclear power plants. We invented telegraphs, telephones, radio, television. The herd grew explosively from one billion to two, three, four, five, six, seven… Zoom, zoom, zoom…
For a while, the Peak Oil doomsters made us nervous, with their predictions that the production of conventional oil would likely peak around 2005, which it did. But we got distracted by the growing production unconventional oil from oil shale (fracking) and tar sands, and returned to pretending that we have no limits. Let’s go shopping!
Thankfully, Crosby provides readers with an embarrassing birds-and-bees talk about EROEI (Energy Returned on Energy Invested). In the 1930s, the EROEI of oil production was 100:1 — it took one unit of energy to extract 100 units from the underground reserves. When he was writing in 2006, it had dropped to 17:1. Today, it’s less. Low EROEI means that lots of oil will be left in the ground forever, regardless of how high the price eventually rises. Imagine having a job that paid $100 per day, but the bridge toll to get there was $105.
Crosby offers us no silver bullet solutions. “Winning streaks are rarely permanent.” The easiest approach to our challenges is to continue living foolishly and hope for miracles. The smartest response would be sanity — limit population, cut consumption, live lightly, and abandon nuclear and fossil energy. “We have every reason to believe that we are capable of environmental sanity; but first we have to accept that the way we live now is new, abnormal, and unsustainable.”
It’s a short book, and very easy to read — no charts, graphs, or techno-jargon. Crosby describes the uncomfortable facts of life in a calm and non-hysterical way. I have zero complaints about it. It’s an excellent intro to energy. He briefly discusses the limitations of alternative energy sources. The limits are more thoroughly discussed in Renewable Energy Cannot Sustain a Consumer Society. The huge downside of nuclear energy is better addressed in Too Hot to Touch. Other energy-related books include Snake Oil, Cadillac Desert, The Big Flatline, The End of Growth, Techno-Fix, and Afterburn.
February 4, 2019
This is a brief but informative and fascinating history of human use of energy. It is so brief that it's hard not to recommend it because my experience with "big history" books of this ilk is that they are normally gigantic, with a forbidding page count that turns most people off. So, because I get into it, I should just say: this is easy to read, it's short and you should read it.
There are essentially two parts to Crosby's summary: the first is the story of human use of energy up until the 20th century; the second is a brief examination of the possibilities for humanity in the 21st century and the future. The former is better and more worth your time than the latter, but I am also not really the person to evaluate the latter.
I have never really thought about how we used energy in the past. In nearly every history book I've ever read prior to this one, energy consumption has either been entirely absent from the discussion or a footnote. But, much like geography and other external factors, energy availability has had more of an influence on human behaviour than most of us imagine and certainly every "great men" history of the world has ever bothered to acknowledge. This history is brief, yes, but it feels pretty thorough. It does make me want to dig deeper into some of these changes, from wood to coal, and other similar leaps. Also, it is yet another reminder that I am extremely happy that I was born in 1981, and not 1481 or even 1881. It is impossible for us living in the developed world in the 21st century to truly understand how little energy humans had access to prior to electrification.
The end of the book deals more with present problems. It isn't necessarily less effective - though I don't know how scientifically rigorous it is - but, because it is no longer history, it is fraught with issues, one of which is that this book is now 13 years old or so, and one has to assume these chapters are scientifically out of date. Moreover, it's really hard to know how complete Crosby's survey of fusion and other potential energy sources truly is. That being said, it's interesting and feels informed. It does leave me wanting a lot more, though.
The main reason to read this book - and you should read it - is the history of our usage of energy, and how that history utterly flips our notions of how human history has been driven, and how unique our current situation currently is in the history of the earth. It's extremely eye-opening but it is so brief that you can get through this is a week or something with no problem. I'm not sure I've read so impactful a book that was so short.
Really worth your time.
There are essentially two parts to Crosby's summary: the first is the story of human use of energy up until the 20th century; the second is a brief examination of the possibilities for humanity in the 21st century and the future. The former is better and more worth your time than the latter, but I am also not really the person to evaluate the latter.
I have never really thought about how we used energy in the past. In nearly every history book I've ever read prior to this one, energy consumption has either been entirely absent from the discussion or a footnote. But, much like geography and other external factors, energy availability has had more of an influence on human behaviour than most of us imagine and certainly every "great men" history of the world has ever bothered to acknowledge. This history is brief, yes, but it feels pretty thorough. It does make me want to dig deeper into some of these changes, from wood to coal, and other similar leaps. Also, it is yet another reminder that I am extremely happy that I was born in 1981, and not 1481 or even 1881. It is impossible for us living in the developed world in the 21st century to truly understand how little energy humans had access to prior to electrification.
The end of the book deals more with present problems. It isn't necessarily less effective - though I don't know how scientifically rigorous it is - but, because it is no longer history, it is fraught with issues, one of which is that this book is now 13 years old or so, and one has to assume these chapters are scientifically out of date. Moreover, it's really hard to know how complete Crosby's survey of fusion and other potential energy sources truly is. That being said, it's interesting and feels informed. It does leave me wanting a lot more, though.
The main reason to read this book - and you should read it - is the history of our usage of energy, and how that history utterly flips our notions of how human history has been driven, and how unique our current situation currently is in the history of the earth. It's extremely eye-opening but it is so brief that you can get through this is a week or something with no problem. I'm not sure I've read so impactful a book that was so short.
Really worth your time.
August 9, 2024
5.00 / 5.00
What happens when we finally run out of easily available fossil fuels? The age of abundance we have been experiencing for the past few centuries is not 'normal' by any means.
I am studying Mechanical Engineering at University. Whenever someone asks what my major is really about, I reply that it’s fundamentally about how we as humans harness and use various sources of energy to do our bidding. I’ve been searching for a comprehensive overview of our species' energy journey, and this book is a revelation. Alfred Crosby is a gifted writer. Every sentence had so much packed in, and I was never once bored while reading this.
~ 10 August 2024
What happens when we finally run out of easily available fossil fuels? The age of abundance we have been experiencing for the past few centuries is not 'normal' by any means.
I am studying Mechanical Engineering at University. Whenever someone asks what my major is really about, I reply that it’s fundamentally about how we as humans harness and use various sources of energy to do our bidding. I’ve been searching for a comprehensive overview of our species' energy journey, and this book is a revelation. Alfred Crosby is a gifted writer. Every sentence had so much packed in, and I was never once bored while reading this.
~ 10 August 2024
April 9, 2018
This was a thoroughly engaging take on the history of our dependence on the sun - from hunter/gatherers to nuclear scientists. All the claims were supported wth evidence and the codas following each chapter were thought provoking. More scientific than socially based, but that is more my style and I really enjoyed reading this book and learning more about how our energy sources have changed and will continue to change.
June 28, 2024
I first discovered this book when it was referenced on Khan Academy, in the YouTube video 'Humans and Energy: Crash Course World History 207' uploaded by the channel CrashCourse, in the article 'WATCH: Humans and Energy', in Unit 7, in the course 'World History Project - Origins to the Present'. In the video, the narrator, Stan Muller (substituting for John Green), quotes the author, who also wrote 'The Columbian Exchange: Biological and Cultural Consequences of 1492': "modern civilization is the product of an energy binge. . . But humankind's unappeasable appetite for energy makes the solutions ephemeral and the challenge permanent". On Thomas Newcomen's invention of the steam engine in 1712, the author wrote that it was, "the first machine to provide significantly large amounts of power not derived from muscle, water, or wind". According to the author, fossil fuels "created the political and economic landscape we recognize today". The author maintains that, "the internal combustion engine powering the automobile, truck, and tractor has for a century been the most influential contrivance on the planet". He also wrote that, "humanity's primary energy use has increased twenty times over since 1850 and nearly five times over since 1950". The author reminds us that, "most of us in the richer societies can only recall times of immediate access to abundant energy. That abundance tempts us, successfully, to believe that having energy flow down lines from far away and illuminate our rooms when we flip the switch is normal rather than miraculous".
September 5, 2024
Children of the Sun offers a brief history of homo sapiens along with their development and use of various forms of harnessing energy (most of which come directly or indirectly from the sun). It's fine... I don't really have much else to say. There's nothing new here. No great insights or anything like that except for some brief remarks made in the final chapter about consumption. It also strikes me strange that a book about the history of energy - focusing on the sun - completes omits any discussion on photovoltaic energy in lieu of an unnecessary chapter on fusion. Any good historian should know that talking optimistically about fusion means that people reading your book decades latter will look back and wonder how you thought that was the case; just like every other person who's dreamt up fusion-driven ideas of utopia.
July 18, 2021
It astounds me that this book has less than 4.5 stars minimum on this platform, as it is by far the most easily informative book on our history of energy consumption and production in such a short book. Obviously, you'll get far more raw information from a larger textbook or a book by Vaclav Smil, but this book teaches you to look at our energy in such a way that forces you to critically think about how innovations have been made, why, where they might go next, and how to understand them. I have been looking for a good introduction to energy before I begin more academic studies, and I can already tell you that this book has done for me in less than 200 pages what entire courses couldn't.
February 19, 2019
能源是文化的引擎。從遠古的石器時代到今天的數碼世紀,人類的生活都依賴能源。能源又從何而來呢?
作者指出,原來我們都是太陽之子,每天接受陽光的無形且慷慨的贈禮:植物因陽光而進行光合作用,製造食物;供養萬物。火的發現更將文明推進到新的高度:透過火,原始人的食物來源變得更豐富,我們因烹飪與狩獵而練就的規劃與創作,又一下子令我們腦部增大而變得更聰明,結果成為頂級的獵食者。而農業的興起,更令我們取得能源的效率大大提升。我們終於不用再捱餓了。
石油和煤炭都是千萬年前受過高溫高壓過的植物遺骸。到今天地位依意舉足輕重,成為我們經濟的動力,戰爭的源頭。顯然人類對能源的胃口永不厭足,每個世代都在追逐更多更多的能源;而核能的研究,就更不在話下了。
將揚揚灑灑的能源史,說得簡單易懂,是本書的最大吸引力。對於將來的能源問題,作者沒有提出答案,而是給讀者們思考。事實上,從歷史的角度看,今天這種能源充沛的世代不過是歷史的一瞬,顯然是不可持續的奇蹟。人類的未來將何去何從?
好書!四星推薦!
作者指出,原來我們都是太陽之子,每天接受陽光的無形且慷慨的贈禮:植物因陽光而進行光合作用,製造食物;供養萬物。火的發現更將文明推進到新的高度:透過火,原始人的食物來源變得更豐富,我們因烹飪與狩獵而練就的規劃與創作,又一下子令我們腦部增大而變得更聰明,結果成為頂級的獵食者。而農業的興起,更令我們取得能源的效率大大提升。我們終於不用再捱餓了。
石油和煤炭都是千萬年前受過高溫高壓過的植物遺骸。到今天地位依意舉足輕重,成為我們經濟的動力,戰爭的源頭。顯然人類對能源的胃口永不厭足,每個世代都在追逐更多更多的能源;而核能的研究,就更不在話下了。
將揚揚灑灑的能源史,說得簡單易懂,是本書的最大吸引力。對於將來的能源問題,作者沒有提出答案,而是給讀者們思考。事實上,從歷史的角度看,今天這種能源充沛的世代不過是歷史的一瞬,顯然是不可持續的奇蹟。人類的未來將何去何從?
好書!四星推薦!
April 10, 2018
Thought-provoking, science-based, thorough. Explains how human's drive for energy has informed how we create societies and motivate our research. Scary, really, but a good read.
March 2, 2021
Quick but thought provoking read. A must if you want to learn world history from another point of view, that of humanity’s need for constant energy.
January 14, 2024
This book was surprisingly interesting and engaging! It felt like learning in a most fun way.
October 4, 2024
It was definitely a really interesting novel, I wish I didn’t read it so slowly for class. Also you definitely need to know a good bit of science or engineering for the later half of the book.
February 11, 2025
Basic yet thorough overview for anyone curious about learning the history and evolution of energy production and how we most of our energy resources originate from that provided by the sun.
September 18, 2017
This book is a great overview of multiple aspects of human energy consumption. The science is so accessibly explained that I could recommend this book to someone without a strong background in the natural sciences. The statistics are used to actually contextualize the science and history, rather than "sounding big" to emphasize some point. I learned a lot from this book and recommend it to anyone who wants to understand the effects of technology on energy consumption and human history.
November 14, 2019
This eighth book by innovative historian Alfred Crosby is a qualitative study of human beings' increasing consumption of energy since the Pleistocene. Crosby's unifying theme in this ambitious narrative is indicated by his title: humans' primary source of energy has always been solar power, which supports the food chains upon which we and our domestic animals feed, moves the winds and waters that provide us with some of our electricity, and which, millions of years ago, produced the hydrocarbons that power most of modernity’s vehicles and power plants. Our exploitation of solar power began with advances in food production, namely the domestication of fire for cooking (which increased the digestibility of raw foods) and the development of agriculture. It accelerated when Europeans began using hydrocarbons - “fossilized” solar energy – for motive power, first employing coal to drive steam engines and activate the Industrial Revolution, then in the late nineteenth century learning to refine oil and use it to power compact internal combustion engines. The growth in energy output made possible dramatic increases in humans' collective standard of living, but also made human beings dependent on a finite resource: the world can produce ample food and has plenty of coal, but oil supplies are limited and exhaustible. Crosby unhelpfully dismisses the notion that we could “cobble together a variety of environmentally friendly sources of energy” (126) to replace coal and oil, arguing this is unrealistically complex and Puritanical, and proposes instead mass conversion to nuclear power. This is a hard sell to make in the aftermath of the 2011 Fukushima disaster, and even before then fission power had two huge problems: waste disposal, and the overwhelming cost of building new reactors. (Crosby closes with a chapter on nuclear fusion, a nice narrative touch given his theme, but a pipe dream at present.) In the end, Crosby is wedded to the idea that a big, worldwide, government-sponsored conversion to nuclear power is the only thing that can provide for our growing energy needs, but in fact the United States' current “all of the above” energy strategy (conservation, solar, wind, biofuels, hydrocarbons) is more compatible with our decentralized modern society, and unlike nuclear power is likelier to stimulate human ingenuity and technological breakthroughs.
November 4, 2015
Until recently, all the energy humans ever used was, ultimately, solar. Muscles got their energy from food. The bottom of the food chain rested on plants, which got their energy from the sun. When humans tamed fire, they burned wood...a plant. Peat, coal, natural gas, and oil are also derived from plants. They are forms of stored solar energy compressed and compacted over many millennia. Electricity was, and still is, generated mainly from burning coal, gas, and oil. Hydroelectric plants produce some, but they rely on the planetary water cycle, which is driven by evaporation and precipitation powered by the sun.
This book is a brief account of humanity's still growing quest for usable energy. It offers no real recommendation for where that will be found, other than a cautious nod toward nuclear power and especially the hope of fusion at some point in the future. It does not, however, foresee the delay to the ITER (International Thermonuclear Experimental Reactor) and seems to place more hope on it than perhaps is warranted given the delays, cost increases, and political uncertainty surrounding it. It also doesn't foresee advances in the efficiency of solar voltaic cells or their declining cost, and seems to dismiss their potential too quickly. Although this was published in 2006, it already feels a bit dated. Perhaps this is simply another example of how quickly things change in our age.
This book is a brief account of humanity's still growing quest for usable energy. It offers no real recommendation for where that will be found, other than a cautious nod toward nuclear power and especially the hope of fusion at some point in the future. It does not, however, foresee the delay to the ITER (International Thermonuclear Experimental Reactor) and seems to place more hope on it than perhaps is warranted given the delays, cost increases, and political uncertainty surrounding it. It also doesn't foresee advances in the efficiency of solar voltaic cells or their declining cost, and seems to dismiss their potential too quickly. Although this was published in 2006, it already feels a bit dated. Perhaps this is simply another example of how quickly things change in our age.
March 27, 2013
Good overview of the various sources of energy humans have tapped throughout history. I enjoyed the discussion of our evolutionary history in the first couple chapters as well. The author includes balanced discussion of each source of energy and suggests ways we might better utilize them going forward through the next few decades. The concept of "energy returned on energy invested" demonstrates the diminishing value of fossil fuels as they become more difficult to obtain. Not to mention the constantly increasing pollution that negatively affects all life forms, arguably human life most of all. Looking forward we can make machines more efficient, begin refining oil from tar sands, expand natural gas usage, and safely operate nuclear reactors, but it seems the ultimate solution that will last for centuries is developing fusion. This is a ways off but with added investment and research, it would be marvelous development in our human history. The thought of safe and unlimited power with no emissions has to excite anyone who wants to maintain the lifestyle we have become so accustomed to over the last couple centuries.
September 4, 2016
I love books that takes a step back and explains world history with broad strokes, and only dives into the nitty gritty when it's truly necessary, and this book does just that. Changes in energy consumption has resulted in massive changes to our world, both good and bad, and this book goes into some of those changes one might not know. The introduction of the potato in Europe changed things almost as much as gasoline, and this book explains why.
September 21, 2013
A brief but thought provoking view of human history seen through the lens of humanity's use of energy. Crosby identifies the taming of fire, the development of agriculture, and the use of fossil fuels as three "sprints" in the development of our ability to harness the sun's energy for our own purposes.
August 19, 2013
If you've never thought about where we get all our energy from this is a good introduction. Unlike most authors, Crosby starts at the beginning (before fire) . Not much new here for me and no great thoughts to nake me think. This would be good starting point for a high scool or college seminar.
October 24, 2007
Another great ELM book! Very interesting.
January 2, 2010
a good intro to energy history
October 27, 2012
A short and incisive history of humans and their use of the sun's energy, in all its forms, throughout history. A timely reminder of what we are burning every single day.
January 10, 2013
I found this book to be difficult to focus on. When I was able to focus I rather enjoyed what I learned.
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January 17, 2013Nice book
February 24, 2013
This book is certainly worth reading. This provides an overview of history from a unique perspective.
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