万物简史英文版_比尔·布莱森-第46章
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volunteers might be required to sit in ice water while breathing 鈥渁berrant atmosphere鈥潯rsubjected to rapid changes of pressurization。 in one experiment; haldane simulated adangerously hasty ascent to see what would happen。 what happened was that the dentalfillings in his teeth exploded。 鈥渁lmost every experiment;鈥潯orton writes; 鈥渆nded withsomeone having a seizure; bleeding; or vomiting。鈥潯he chamber was virtually soundproof; sothe only way for occupants to signal unhappiness or distress was to tap insistently on thechamber wall or to hold up notes to a small window。
on another occasion; while poisoning himself with elevated levels of oxygen; haldane hada fit so severe that he crushed several vertebrae。 collapsed lungs were a routine hazard。
perforated eardrums were quite mon; but; as haldane reassuringly noted in one of hisessays; 鈥渢he drum generally heals up; and if a hole remains in it; although one is somewhatdeaf; one can blow tobacco smoke out of the ear in question; which is a socialacplishment。鈥
what was extraordinary about this was not that haldane was willing to subject himself tosuch risk and disfort in the pursuit of science; but that he had no trouble talkingcolleagues and loved ones into climbing into the chamber; too。 sent on a simulated descent;his wife once had a fit that lasted thirteen minutes。 when at last she stopped bouncing acrossthe floor; she was helped to her feet and sent home to cook dinner。 haldane happily employedwhoever happened to be around; including on one memorable occasion a former primeminister of spain; juan negr铆n。 dr。 negr铆n plained afterward of minor tingling and 鈥渁curious velvety sensation on the lips鈥潯ut otherwise seems to have escaped unharmed。 he mayhave considered himself very lucky。 a similar experiment with oxygen deprivation lefthaldane without feeling in his buttocks and lower spine for six years。
among haldane鈥檚 many specific preoccupations was nitrogen intoxication。 for reasons thatare still poorly understood; beneath depths of about a hundred feet nitrogen bees apowerful intoxicant。 under its influence divers had been known to offer their air hoses topassing fish or decide to try to have a smoke break。 it also produced wild mood swings。 inone test; haldane noted; the subject 鈥渁lternated between depression and elation; at onemoment begging to be depressed because he felt 鈥榖loody awful鈥櫋nd the next minutelaughing and attempting to interfere with his colleague鈥檚 dexterity test。鈥潯n order to measurethe rate of deterioration in the subject; a scientist had to go into the chamber with thevolunteer to conduct simple mathematical tests。 but after a few minutes; as haldane laterrecalled; 鈥渢he tester was usually as intoxicated as the testee; and often forgot to press thespindle of his stopwatch; or to take proper notes。鈥潯he cause of the inebriation is even now amystery。 it is thought that it may be the same thing that causes alcohol intoxication; but as noone knows for certain what causes that we are none the wiser。 at all events; without thegreatest care; it is easy to get in trouble once you leave the surface world。
which brings us back (well; nearly) to our earlier observation that earth is not the easiestplace to be an organism; even if it is the only place。 of the small portion of the planet鈥檚surface that is dry enough to stand on; a surprisingly large amount is too hot or cold or dry orsteep or lofty to be of much use to us。 partly; it must be conceded; this is our fault。 in terms ofadaptability; humans are pretty amazingly useless。 like most animals; we don鈥檛 much likereally hot places; but because we sweat so freely and easily stroke; we are especiallyvulnerable。 in the worst circumstances鈥攐n foot without water in a hot desert鈥攎ost peoplewill grow delirious and keel over; possibly never to rise again; in no more than six or sevenhours。 we are no less helpless in the face of cold。 like all mammals; humans are good atgenerating heat but鈥攂ecause we are so nearly hairless鈥攏ot good at keeping it。 even in quitemild weather half the calories you burn go to keep your body warm。 of course; we cancounter these frailties to a large extent by employing clothing and shelter; but even so theportions of earth on which we are prepared or able to live are modest indeed: just 12 percentof the total land area; and only 4 percent of the whole surface if you include the seas。
yet when you consider conditions elsewhere in the known universe; the wonder is not thatwe use so little of our planet but that we have managed to find a planet that we can use even abit of。 you have only to look at our own solar system鈥攐r; e to that; earth at certainperiods in its own history鈥攖o appreciate that most places are much harsher and much lessamenable to life than our mild; blue watery globe。
so far space scientists have discovered about seventy planets outside the solar system; outof the ten billion trillion or so that are thought to be out there; so humans can hardly claim tospeak with authority on the matter; but it appears that if you wish to have a planet suitable forlife; you have to be just awfully lucky; and the more advanced the life; the luckier you have tobe。 various observers have identified about two dozen particularly helpful breaks we havehad on earth; but this is a flying survey so we鈥檒l distill them down to the principal four。 theyare:
excellent location。we are; to an almost uncanny degree; the right distance from the right sortof star; one that is big enough to radiate lots of energy; but not so big as to burn itself outswiftly。 it is a curiosity of physics that the larger a star the more rapidly it burns。 had our sunbeen ten times as massive; it would have exhausted itself after ten million years instead of tenbillion and we wouldn鈥檛 be here now。 we are also fortunate to orbit where we do。 too muchnearer and everything on earth would have boiled away。 much farther away and everythingwould have frozen。
in 1978; an astrophysicist named michael hart made some calculations and concluded thatearth would have been uninhabitable had it been just 1 percent farther from or 5 percentcloser to the sun。 that鈥檚 not much; and in fact it wasn鈥檛 enough。 the figures have since beenrefined and made a little more generous鈥5 percent nearer and 15 percent farther are thoughtto be more accurate assessments for our zone of habitability鈥攂ut that is still a narrow belt。
1to appreciate just how narrow; you have only to look at venus。 venus is only twenty…fivemillion miles closer to the sun than we are。 the sun鈥檚 warmth reaches it just two minutesbefore it touches us。 in size and position; venus is very like earth; but the smalldifference in orbital distance made all the difference to how it turned out。 it appears thatduring the early years of the solar system venus was only slightly warmer than earth andprobably had oceans。 but those few degrees of extra warmth meant that venus could not holdon to its surface water; with disastrous consequences for its climate。 as its water evaporated;the hydrogen atoms escaped into space; and the oxygen atoms bined with carbon to forma dense atmosphere of the greenhouse gas co2。 venus became stifling。 although people ofmy age will recall a time when astronomers hoped that venus might harbor life beneath itspadded clouds; possibly even a kind of tropical verdure; we now know that it is much toofierce an environment for any kind of life that we can reasonably conceive of。 its surfacetemperature is a roasting 470 degrees centigrade (roughly 900 degrees fahrenheit); which ishot enough to melt lead; and the atmospheric pressure at the surface is ninety times that ofearth; or more than any human body could withstand。 we lack the technology to make suitsor even spaceships that would allow us to visit。 our knowledge of venus鈥檚 surface is based ondistant radar imagery and some startled squawks from an unmanned soviet probe that wasdropped hopefully into the clouds in 1972 and functioned for barely an hour beforepermanently shutting down。
so that鈥檚 what happens when you move two light minutes closer to the sun。 travel fartherout and the problem bees not heat but cold; as mars frigidly attests。 it; too; was once amuch more congenial place; but couldn鈥檛 retain a usable atmosphere and turned into a frozenwaste。
but just being the right distance from the sun cannot be the whole story; for otherwise themoon would be forested and fair; which patently it is not。 for that you need to have:
the right kind of planet。i don鈥檛 imagine even many geophysicists; when asked to counttheir blessings; would include living on a planet with a molten interior; but it鈥檚 a pretty nearcertainty that without all that magma swirling around beneath us we wouldn鈥檛 be here now。
apart from much else; our lively interior created the outgassing that helped to build anatmosphere and provided us with the magnetic field that shields us from cosmic radiation。 italso gave us plate tectonics; which continually renews and rumples the surface。 if earth wereperfectly smooth; it would be covered everywhere with water to a depth of four kilometers。
there might be life in that lonesome ocean; but there certainly wouldn鈥檛 be baseball。
in addition to having a beneficial interior; we also have the right elements in the correctproportions。 in the most literal way; we are made of the right stuff。 this is so crucial to ourwell…being that we are going to discuss it more fully in a minute; but first we need to considerthe two remaining factors; beginning with another one that is often overlooked:
1the discovery of extremophiles in the boiling mudpots of yellowstone and similar organisms found elsewheremade scientists realize that actually life of a type could range much farther than that…even; perhaps; beneath theicy skin of pluto。 what we are talking about here are the conditions that would produce reasonably plexsurface creatures。
we鈥檙e a twin planet。not many of us normally think of the moon as a panion planet;but that is in effect what it is。 most moons are tiny in relation to their master planet。 themartian satellites of phobos and deimos; for instance; are only about ten kilometers indiameter。 our moon; however; is more than a quarter the diameter of the earth; which makesours the only planet in the solar system with a sizeable moon in parison to itself (exceptpluto; which doesn鈥檛 really count because pluto is itself so small); and what a difference thatmakes to us。
without the moon鈥檚 steadying influence; the earth would wobble like a dying top; withgoodness knows what consequences for climate and weather。 the moon鈥檚 steady gravitationalinfluence keeps the earth spinning at the right speed and angle to provide the sort of stabilitynecessary for the long and successful development of life。 this won鈥檛 go on forever。 themoon is slipping from our grasp at a rate of about 1。5 inches a year。 in another two billionyears it will have receded so far that it won鈥檛 keep us steady and we will have to e up withsome other solution; but in the meantime you should think of it as much more than just apleasant feature in the night sky。
for a long time; astronomers assumed that the moon and earth either formed together orthat