Beginners guide to evolutionary theory
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Beginners guide to evolutionary theory
Hi, can any one suggest a good beginners book to understand the evolutionary theory?
I would appreciate a book which does not delve into, why ID or creationism is wrong, I don't want any philosophical takes on it. I would like a book which a student would be reading.
I would appreciate a book which does not delve into, why ID or creationism is wrong, I don't want any philosophical takes on it. I would like a book which a student would be reading.
It would be a blessing if they missed the cairns and got lost on the way back. Or if
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
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Re: Beginners guide to evolutionary theory
Hi neo-x.
Which of these types of evolution are you looking for a book about?
1. Cosmic Evolution: The origin of time, space and matter, by the Big Bang
2. Chemical Evolution: The origin of higher elements from hydrogen.
3. Stellar and Planetary Evolution: The origin of stars and planets.
4. Organic Evolution: The origin of Life.
5. Macro-Evolution: The changing from one kind of species to another kind of species.
6. Micro-Evolution: The variation within kinds of species.
It would help if you could narrow it down, since "evolution" is a very broad term.
Thanks
Which of these types of evolution are you looking for a book about?
1. Cosmic Evolution: The origin of time, space and matter, by the Big Bang
2. Chemical Evolution: The origin of higher elements from hydrogen.
3. Stellar and Planetary Evolution: The origin of stars and planets.
4. Organic Evolution: The origin of Life.
5. Macro-Evolution: The changing from one kind of species to another kind of species.
6. Micro-Evolution: The variation within kinds of species.
It would help if you could narrow it down, since "evolution" is a very broad term.
Thanks
John 5:24
24 “Truly, truly, I say to you, he who hears My word, and believes Him who sent Me, has eternal life, and does not come into judgment, but has passed out of death into life.
“A nation of sheep will beget a government of wolves.”
-Edward R Murrow
St. Richard the Sarcastic--The Patron Saint of Irony
24 “Truly, truly, I say to you, he who hears My word, and believes Him who sent Me, has eternal life, and does not come into judgment, but has passed out of death into life.
“A nation of sheep will beget a government of wolves.”
-Edward R Murrow
St. Richard the Sarcastic--The Patron Saint of Irony
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Re: Beginners guide to evolutionary theory
Biological evolution, macro evolution to be precise.
It would be a blessing if they missed the cairns and got lost on the way back. Or if
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
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Re: Beginners guide to evolutionary theory
Do you want one that helps a believer understand how evolution does NOT threaten our faith?
Biologos.org has quite a few books.
Biologos.org has quite a few books.
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Re: Beginners guide to evolutionary theory
thanks Paul but that's not what I am looking for. I am looking for a scientific book with a beginner's understanding of macro-evolutionary theory, without religious or atheistic takes on it.
It would be a blessing if they missed the cairns and got lost on the way back. Or if
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
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Re: Beginners guide to evolutionary theory
Dawkins "greatest show on earth" is a good one, but it is Dawkins, so...
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Re: Beginners guide to evolutionary theory
There are really a lot of books on evolution though
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Re: Beginners guide to evolutionary theory
Good luck finding THAT book.neo wrote:
I am looking for a scientific book with a beginner's understanding of macro-evolutionary theory, without religious or atheistic takes on it.
You might as well search for the fountain of youth!
There may be books somewhere with only a little of religious or atheistic takes, but how can one talk about biological evolution without coming to the point of "beginnings"?
John 5:24
24 “Truly, truly, I say to you, he who hears My word, and believes Him who sent Me, has eternal life, and does not come into judgment, but has passed out of death into life.
“A nation of sheep will beget a government of wolves.”
-Edward R Murrow
St. Richard the Sarcastic--The Patron Saint of Irony
24 “Truly, truly, I say to you, he who hears My word, and believes Him who sent Me, has eternal life, and does not come into judgment, but has passed out of death into life.
“A nation of sheep will beget a government of wolves.”
-Edward R Murrow
St. Richard the Sarcastic--The Patron Saint of Irony
- neo-x
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Re: Beginners guide to evolutionary theory
Lol. Rick, I meant a book which actually discuses the theory rather than say "there is or there ain't a God who did it."
It would be a blessing if they missed the cairns and got lost on the way back. Or if
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
- neo-x
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Re: Beginners guide to evolutionary theory
Paul, I am reading the selfish gene and the Ancestors Tale. So far its not that bad. But was hoping for something more interesting. Oh! well....
It would be a blessing if they missed the cairns and got lost on the way back. Or if
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
the Thing on the ice got them tonight.
I could only turn and stare in horror at the chief surgeon.
Death by starvation is a terrible thing, Goodsir, continued Stanley.
And with that we went below to the flame-flickering Darkness of the lower deck
and to a cold almost the equal of the Dante-esque Ninth Circle Arctic Night
without.
//johnadavid.wordpress.com
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Re: Beginners guide to evolutionary theory
The Selfish Gene is a classic of evolution pop science, I miss the old Dawkins that stuck to what he was good at.
For something a little more in depth Campbell's Biology is a great textbook. One of the older editions, maybe 5th or 6th, should be pretty reasonable price wise and more than cover your needs - I imagine older again would be fine but I've not seen them. It's not evolution specific but if you're looking to get a better handle on the nuts and bolts of biology the first few chapters on chemistry of life, the cell & genetics are excellent building blocks and references for an understanding of evolution, which gets two chapters all to itself.
For most of the material covered it was something I could reference back to when getting lost in specialised textbooks. Feeling overwhelmed, back to Campbell and build back up from there.
The later editions, not sure where it starts, come with computery stuff. DVD's, online resources and whatnot, not sure how that works if you're buying second hand.
I don't know of anything offhand that isn't a textbook and a student would be reading. Evolution textbooks don't really stand alone for gaining an understanding unless you already have a decent grounding in cell biology and genetics imo. Any student looking to study evolution ain't gonna get there without wading through the first few chapters of something Campbell-esque either.
For something a little more in depth Campbell's Biology is a great textbook. One of the older editions, maybe 5th or 6th, should be pretty reasonable price wise and more than cover your needs - I imagine older again would be fine but I've not seen them. It's not evolution specific but if you're looking to get a better handle on the nuts and bolts of biology the first few chapters on chemistry of life, the cell & genetics are excellent building blocks and references for an understanding of evolution, which gets two chapters all to itself.
For most of the material covered it was something I could reference back to when getting lost in specialised textbooks. Feeling overwhelmed, back to Campbell and build back up from there.
The later editions, not sure where it starts, come with computery stuff. DVD's, online resources and whatnot, not sure how that works if you're buying second hand.
I don't know of anything offhand that isn't a textbook and a student would be reading. Evolution textbooks don't really stand alone for gaining an understanding unless you already have a decent grounding in cell biology and genetics imo. Any student looking to study evolution ain't gonna get there without wading through the first few chapters of something Campbell-esque either.
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Re: Beginners guide to evolutionary theory
Well...can't please all the people all the time ;Pneo-x wrote:Paul, I am reading the selfish gene and the Ancestors Tale. So far its not that bad. But was hoping for something more interesting. Oh! well....
Evolution may be many things but "interesting" wouldn't be the word I would use unless I was an evolutionary biologist, LOL !
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Re: Beginners guide to evolutionary theory
neo-x wrote:Hi, can any one suggest a good beginners book to understand the evolutionary theory?
I would appreciate a book which does not delve into, why ID or creationism is wrong, I don't want any philosophical takes on it. I would like a book which a student would be reading.
Just in the middle of reading "Creation or Evolution - Do we have to choose" by Denis Alexander. It does get in to the theological side in the latter half of the book - but the first half is a very good summary of what the current evolution theory consists of - including genetics, Speciation, Natural Selection, mutations etc...
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Re: Beginners guide to evolutionary theory
A cool article on the rise of homosapiens:
http://biologos.org/blog/the-rise-of-ar ... mo-sapiens
Beginning around 1.6 million years ago, the first large-brained hominin appeared on the landscape. This was Homo ergaster. Homo ergaster had a modern skeleton and more advanced food-gathering methods than previous hominins. It was also the first hominin to make it out of Africa, its earliest remains having being found in Dmanisi, in the Republic of Georgia and, a bit later, in several places in southern Europe.
Our best understanding is that this form gave rise to Homo erectus around a million years ago, and that by 700,000 years ago, Homo erectus was firmly established as the dominant (if not the only) hominin on the landscape. From the river valleys in Indonesia, to the open savannas in Africa, to the caves in China, India and Europe, this hominin had mastered fire, standardized stone tool technology and incorporated hunting into its daily life. Through the approximately million-year heyday of Homo erectus, the Acheulean tool technology—focused on the hand axe—remained unchanged. But, yet again, change was on the horizon: beginning around 600 to 700 thousand years ago, new hominin forms appear in the archaeological record, all having certain common characteristics that represent advancements over those found in Homo erectus. These were the first, still-archaic Homo sapiens.
Cranial capacity in these new hominins increased from the Homo erectus average of 900 CC3 to an average of 1100 CC3, with the heads becoming larger and more vaulted. The maximum cranial width was now midway up the sides of the vault, rather than near the ears as was the case with Homo erectus. In fact, some of the archaic Homo sapiens crania are among the largest skulls found. Faces are also larger; as are front teeth, and the faces do not project out as much as with prior types, having a more orthognathic (flatter) appearance. The extensive brow ridges—which formed a continuous bar in Homo erectus—are now divided in the middle, above the nose. As with every other stage of human evolution, we must start with the primary fossil remains before discussing their taxonomic status; and that means beginning with the record preserved in Africa.
Africa:
Figure 1: Bodo (from Bräuer, 2012)
In the dark continent, as Bräuer notes (Bräuer, 2012), hominins that are distinctly different from their Homo erectus precursors appear on the landscape between 600 and 700 thousand years ago. While only a partial cranium, the find of Bodo, in east Africa, possesses the largest face of any hominin yet recorded. This individual has alternatively been described as “developed Homo erectus” and “Early Archaic Homo sapiens,” and has been dated to around 600,000 years ago (Figure 1). Despite its size, this cranium represents a shift toward a form in the direction of modern humans; a less scooped face, a brow ridge that is now separate rather than one continuous bar, and a cranial capacity of slightly over 1300 CC3.
Figure 2: Kabwe (Cast)
Perhaps one of the most famous (and complete) skulls that has ever been discovered came from the Broken Hill mine in what was then known as Rhodesia. Known for decades as Broken Hill 1 (Figure 2), it is now more commonly called Kabwe. This is a visually stunning skull, with a very large face and enormous brow ridges. The cranial capacity is around 1100 CC3 and the head is sloping and long. This cranium is thought to be around 300,000 years old. Very similar to Kabwe, at least in cranial morphology, is the find from Saldanha (Figure 3). This has a low, sloping forehead, large supraorbital tori and a very sharply-angled rear of the vault. It has been estimated to be around 400 thousand years old.
Figure 3: Saldanha (Cast)
From the site of Laetoli, which yielded the phenomenal footprints of one of our earliest ancestors, Australopithecus afarensis, comes a cranium described by Magori and Day (1983) as “…Homo sapiens but of an archaic variety” (Figure 4) This skull shows many similarities to Saldanha and Kabwe, being long and low with prominent brow ridges. The date for this hominin places it late in the sequence (120,000 plus or minus 30,000), but this date is based on an assumed correlation with beds at Olduvai and may not be correct. While it is clearly archaic, an associated face shows considerable reduction in size, toward the modern condition, suggesting that, at least for some populations, selection for smaller facial features was occurring and did not go in concert with comparable changes in the vault.
Figure 4: Laetoli Hominid 18 (From
Magori and Day, 1983)
This pattern is also evident in a find from North Africa, from the Atlas Mountains of Morocco. Here was unearthed the Jebel Irhoud (or Ighoud) 1 cranium (Figure 5). Dated to approximately the same time as the given date for LH18, this cranium still has quite prominent brow ridges and is long and low but the face is considerably reduced and pulled in under the forehead.
Figure 5: Jebel Irhoud 1
It is clear that African post-Homo erectus morphology was in a state of flux for some time—possibly several hundred thousand years, judging from the wide morphological variability that we find. It is this variability that had led many researchers to use the “archaic Homo sapiens” designation (see below), since the task of drawing relationships based on derived and primitive traits has revealed few clues in the overall evolution of these hominins. We know that they are getting more modern over time because we see this in individual skulls but the overall pattern is difficult to quantify.
It must be remembered that, for most of this time period, the variability that we speak of is seen in the cranium. This is for two reasons: first, remains other than the cranium are scant and often fragmentary; second, what we do have of such post cranial remains are not appreciably different from anatomically modern humans. At approximately one million years ago, our ancestors attained what is basically a modern skeleton. These hominins are obligate bipeds, some are between five and six feet tall, and their bone structure is modern.
Europe:
Figure 6: Gran Dolina Material
In recent decades, there has been a bit of a renaissance of work in Europe and many critical discoveries have been made that shed light on the evolution of these forms and the origins of perhaps the most well-known variant of archaic Homo sapiens, the Neandertals. One of the most impressive fossil hominin and archaeological sites in Europe comes from the town of Atapuerca, in northern Spain. This site contains material stretching from just over a million years ago down to 300 thousand years. Discovered in 1981, the Atapuerca cave system contains three major sites, the Gran Dolina, the Sima del Elefante and the Sima de Los Huesos. Systematic excavation turned up stone tools in 1991 (Rodríguez et al., 2011). Of particular note, however, was the huge quantity of human fossil remains that stretch for almost the entire vertical distance at the site. Morphologically, these hominins are quite varied. The Gran Dolina cave, which is the earliest of the group, yielded hominin remains that date to around 800,000 years ago. These remains (Figure 6), which consist of cranial, facial and dental materials, suggest a mix of primitive and modern traits. The dentition is large, a carryover from Homo erectus, while the facial skeletons show some modern characteristics in that parts of the face are everted, as in modern humans. Other characteristics are derived in the direction of Neandertals, however. The nasal bones stick out, a trait not found in Homo erectus. This combination of traits has led the researchers to hypothesize that these remains reflect the last common ancestor to modern humans and Neandertals (Arsuaga et al., 1999). It is not clear at present, though, that we can say for sure what the morphology of these hominins represents.
Figure 7: Atapuerca 5
Further up in time come the remains from the site of Sima de Los Huesos. These remains are likely between 300 and 400 thousand years old. According to the describers of the fossil skeletal material found there, these remains “document an early stage of Neanderthal evolution.”(Arsuaga, Martinez, Gracia, Carretero, & Carbonell, 1993). Among the over 4000 remains found at the site are two complete and one partially complete skull (Figure 7). The skulls are notable for their massive brow ridges and faces. Further, the facial skeletons are quite unlike that found in the Gran Dolina. These skulls are characterized by what is known as midfacial prognathism, a trait exemplified by the later Neandertals. It is as if someone has grabbed the nose and pulled the face out from the middle.
Figure 8: Ceprano
Another find of great antiquity in Europe comes from the site of Ceprano, (Figure midway between Rome and Naples, in Italy. It is a partial cranium with associated crude bifaces that are little more advanced than the Developed Oldowan tools crafted by the hominins that preceded it (Ascenzi, Biddittu, Cassoli, Segre, & Segre-Naldini, 1996). This hominin has been dated to around 800,000, placing it half a million years after the archaeological material at Pirro Nord. (See the previous post in this series, Out of Africa (The First Time) for more on Pirro Nord.)
Figure 9: Petralona (Photograph by David Brill)
One of the most important finds from Europe comes from the site of Petralona near the town of Thessaloniki, in Greece. Discovered in 1960, this is one of the most complete fossil human crania in existence and has an estimated cranial capacity of over 1200 cc. This skull is very large and long, with a sloping forehead, large eye orbits and rugose (ridged and wrinkly) features. In many ways, it is a dead ringer for SH5 from Atapuerca, having a very pneumatized (puffy) face that is pulled out from the midline of the skull and very strong brow ridges (Figure 9). These similarities suggest a generalized pan-European form between 300 and 500 thousand years ago. Like the Atapuerca skull, this one has what can be called “incipient” Neandertal morphology and, given that Neandertal remains have been found in the Greek isles and in nearby Italy, it is reasonable to suggest that there was widespread positive selection for these traits. Any gene flow between these populations would have further reinforced these changes.
Figure 10: Steinheim
From Germany come two more important finds: the Mauer mandible and the Steinheim calvaria. The Steinheim find is considerably smaller than the Petralona individual and is very gracile in appearance. The skull is quite fragmentary, having been crushed postmortem (Figure 10). Like many of its contemporaries, it has a long, low skull. It does, however, show general rounding of the back of the cranium and a more flattening of the face.
Figure 11: Mauer Mandible
The Mauer mandible is large, suggesting a massive individual. It has no clear Neandertal traits, instead resembling a generalized archaic Homo sapiens form. Discovered in 1908 during a mining operation, this find has been dated at around 500,000 years (Figure 11). Like the Steinheim skull, though, it has characteristics advanced over Homo erectus, with teeth intermediate in size between that form and the Neandertals that followed. It is this fossil that is the hypodigm of Homo heidelbergensis—that is, the sample from which the characters of that population is to be inferred.
Figure 12: Arago
From France comes the important skull from the site of Arago (Figure 12). The cranial remains consists only of the face and frontal bone (the rest has been reconstructed on the figure to the left) but the face is relatively undistorted, revealing a morphology similar to that of SH5 from Atapuerca and Petralona, with heavy brow ridges and large maxillary sinuses. A mandible and partial pelvis were discovered along with the cranial remains. Through biostratigraphy and uranium series dating, the find is thought to be between 300 and 400 thousand years old, making it contemporary with those similar remains.
Archaic Homo sapiens: A Taxonomic Mess
One of the greatest challenges facing students of human evolution comes at the tail end of the Homo erectus span. After Homo erectus, there is little consensus about what taxonomic name to give the hominins that have been found. As a result, they are assigned the kitchen-sink label of “archaic Homo sapiens.”
Tattersall (2007) notes that the Kabwe skull bears more than a passing resemblance to one of the most prominent finds in Europe, the Petralona skull from Greece. In turn, as I mentioned above, the Petralona skull is very similar to one of the most complete skulls from Atapuerca, SH 5, and at least somewhat similar to the Arago skull.
Further, it is noted that the Bodo cranium from Africa shares striking similarities to the material from Gran Dolina (such as it is). This suggests that, as was the case with Homo erectus, there is widespread genetic homogeneity in these populations. Given the time depth involved, it is likely that there was considerable and persistent gene flow between them. Tattersall (2007), argues that, since the first example of this hominin form is represented by the Mauer mandible, the taxonomic designation Homo heidelbergensis should be used to designate these forms. This would stretch the limits of this taxon, however, since it would include the later forms from Africa as well. If there was considerable migration and hybridization between these populations, it could be argued that a single taxon makes sense. However, at present, there is no definitive material evidence for such migration, or widespread agreement on calling all these hominins anything other than “archaic Homo sapiens.”
Next, East Asian Archaic Homo sapiens.
http://biologos.org/blog/the-rise-of-ar ... mo-sapiens
Beginning around 1.6 million years ago, the first large-brained hominin appeared on the landscape. This was Homo ergaster. Homo ergaster had a modern skeleton and more advanced food-gathering methods than previous hominins. It was also the first hominin to make it out of Africa, its earliest remains having being found in Dmanisi, in the Republic of Georgia and, a bit later, in several places in southern Europe.
Our best understanding is that this form gave rise to Homo erectus around a million years ago, and that by 700,000 years ago, Homo erectus was firmly established as the dominant (if not the only) hominin on the landscape. From the river valleys in Indonesia, to the open savannas in Africa, to the caves in China, India and Europe, this hominin had mastered fire, standardized stone tool technology and incorporated hunting into its daily life. Through the approximately million-year heyday of Homo erectus, the Acheulean tool technology—focused on the hand axe—remained unchanged. But, yet again, change was on the horizon: beginning around 600 to 700 thousand years ago, new hominin forms appear in the archaeological record, all having certain common characteristics that represent advancements over those found in Homo erectus. These were the first, still-archaic Homo sapiens.
Cranial capacity in these new hominins increased from the Homo erectus average of 900 CC3 to an average of 1100 CC3, with the heads becoming larger and more vaulted. The maximum cranial width was now midway up the sides of the vault, rather than near the ears as was the case with Homo erectus. In fact, some of the archaic Homo sapiens crania are among the largest skulls found. Faces are also larger; as are front teeth, and the faces do not project out as much as with prior types, having a more orthognathic (flatter) appearance. The extensive brow ridges—which formed a continuous bar in Homo erectus—are now divided in the middle, above the nose. As with every other stage of human evolution, we must start with the primary fossil remains before discussing their taxonomic status; and that means beginning with the record preserved in Africa.
Africa:
Figure 1: Bodo (from Bräuer, 2012)
In the dark continent, as Bräuer notes (Bräuer, 2012), hominins that are distinctly different from their Homo erectus precursors appear on the landscape between 600 and 700 thousand years ago. While only a partial cranium, the find of Bodo, in east Africa, possesses the largest face of any hominin yet recorded. This individual has alternatively been described as “developed Homo erectus” and “Early Archaic Homo sapiens,” and has been dated to around 600,000 years ago (Figure 1). Despite its size, this cranium represents a shift toward a form in the direction of modern humans; a less scooped face, a brow ridge that is now separate rather than one continuous bar, and a cranial capacity of slightly over 1300 CC3.
Figure 2: Kabwe (Cast)
Perhaps one of the most famous (and complete) skulls that has ever been discovered came from the Broken Hill mine in what was then known as Rhodesia. Known for decades as Broken Hill 1 (Figure 2), it is now more commonly called Kabwe. This is a visually stunning skull, with a very large face and enormous brow ridges. The cranial capacity is around 1100 CC3 and the head is sloping and long. This cranium is thought to be around 300,000 years old. Very similar to Kabwe, at least in cranial morphology, is the find from Saldanha (Figure 3). This has a low, sloping forehead, large supraorbital tori and a very sharply-angled rear of the vault. It has been estimated to be around 400 thousand years old.
Figure 3: Saldanha (Cast)
From the site of Laetoli, which yielded the phenomenal footprints of one of our earliest ancestors, Australopithecus afarensis, comes a cranium described by Magori and Day (1983) as “…Homo sapiens but of an archaic variety” (Figure 4) This skull shows many similarities to Saldanha and Kabwe, being long and low with prominent brow ridges. The date for this hominin places it late in the sequence (120,000 plus or minus 30,000), but this date is based on an assumed correlation with beds at Olduvai and may not be correct. While it is clearly archaic, an associated face shows considerable reduction in size, toward the modern condition, suggesting that, at least for some populations, selection for smaller facial features was occurring and did not go in concert with comparable changes in the vault.
Figure 4: Laetoli Hominid 18 (From
Magori and Day, 1983)
This pattern is also evident in a find from North Africa, from the Atlas Mountains of Morocco. Here was unearthed the Jebel Irhoud (or Ighoud) 1 cranium (Figure 5). Dated to approximately the same time as the given date for LH18, this cranium still has quite prominent brow ridges and is long and low but the face is considerably reduced and pulled in under the forehead.
Figure 5: Jebel Irhoud 1
It is clear that African post-Homo erectus morphology was in a state of flux for some time—possibly several hundred thousand years, judging from the wide morphological variability that we find. It is this variability that had led many researchers to use the “archaic Homo sapiens” designation (see below), since the task of drawing relationships based on derived and primitive traits has revealed few clues in the overall evolution of these hominins. We know that they are getting more modern over time because we see this in individual skulls but the overall pattern is difficult to quantify.
It must be remembered that, for most of this time period, the variability that we speak of is seen in the cranium. This is for two reasons: first, remains other than the cranium are scant and often fragmentary; second, what we do have of such post cranial remains are not appreciably different from anatomically modern humans. At approximately one million years ago, our ancestors attained what is basically a modern skeleton. These hominins are obligate bipeds, some are between five and six feet tall, and their bone structure is modern.
Europe:
Figure 6: Gran Dolina Material
In recent decades, there has been a bit of a renaissance of work in Europe and many critical discoveries have been made that shed light on the evolution of these forms and the origins of perhaps the most well-known variant of archaic Homo sapiens, the Neandertals. One of the most impressive fossil hominin and archaeological sites in Europe comes from the town of Atapuerca, in northern Spain. This site contains material stretching from just over a million years ago down to 300 thousand years. Discovered in 1981, the Atapuerca cave system contains three major sites, the Gran Dolina, the Sima del Elefante and the Sima de Los Huesos. Systematic excavation turned up stone tools in 1991 (Rodríguez et al., 2011). Of particular note, however, was the huge quantity of human fossil remains that stretch for almost the entire vertical distance at the site. Morphologically, these hominins are quite varied. The Gran Dolina cave, which is the earliest of the group, yielded hominin remains that date to around 800,000 years ago. These remains (Figure 6), which consist of cranial, facial and dental materials, suggest a mix of primitive and modern traits. The dentition is large, a carryover from Homo erectus, while the facial skeletons show some modern characteristics in that parts of the face are everted, as in modern humans. Other characteristics are derived in the direction of Neandertals, however. The nasal bones stick out, a trait not found in Homo erectus. This combination of traits has led the researchers to hypothesize that these remains reflect the last common ancestor to modern humans and Neandertals (Arsuaga et al., 1999). It is not clear at present, though, that we can say for sure what the morphology of these hominins represents.
Figure 7: Atapuerca 5
Further up in time come the remains from the site of Sima de Los Huesos. These remains are likely between 300 and 400 thousand years old. According to the describers of the fossil skeletal material found there, these remains “document an early stage of Neanderthal evolution.”(Arsuaga, Martinez, Gracia, Carretero, & Carbonell, 1993). Among the over 4000 remains found at the site are two complete and one partially complete skull (Figure 7). The skulls are notable for their massive brow ridges and faces. Further, the facial skeletons are quite unlike that found in the Gran Dolina. These skulls are characterized by what is known as midfacial prognathism, a trait exemplified by the later Neandertals. It is as if someone has grabbed the nose and pulled the face out from the middle.
Figure 8: Ceprano
Another find of great antiquity in Europe comes from the site of Ceprano, (Figure midway between Rome and Naples, in Italy. It is a partial cranium with associated crude bifaces that are little more advanced than the Developed Oldowan tools crafted by the hominins that preceded it (Ascenzi, Biddittu, Cassoli, Segre, & Segre-Naldini, 1996). This hominin has been dated to around 800,000, placing it half a million years after the archaeological material at Pirro Nord. (See the previous post in this series, Out of Africa (The First Time) for more on Pirro Nord.)
Figure 9: Petralona (Photograph by David Brill)
One of the most important finds from Europe comes from the site of Petralona near the town of Thessaloniki, in Greece. Discovered in 1960, this is one of the most complete fossil human crania in existence and has an estimated cranial capacity of over 1200 cc. This skull is very large and long, with a sloping forehead, large eye orbits and rugose (ridged and wrinkly) features. In many ways, it is a dead ringer for SH5 from Atapuerca, having a very pneumatized (puffy) face that is pulled out from the midline of the skull and very strong brow ridges (Figure 9). These similarities suggest a generalized pan-European form between 300 and 500 thousand years ago. Like the Atapuerca skull, this one has what can be called “incipient” Neandertal morphology and, given that Neandertal remains have been found in the Greek isles and in nearby Italy, it is reasonable to suggest that there was widespread positive selection for these traits. Any gene flow between these populations would have further reinforced these changes.
Figure 10: Steinheim
From Germany come two more important finds: the Mauer mandible and the Steinheim calvaria. The Steinheim find is considerably smaller than the Petralona individual and is very gracile in appearance. The skull is quite fragmentary, having been crushed postmortem (Figure 10). Like many of its contemporaries, it has a long, low skull. It does, however, show general rounding of the back of the cranium and a more flattening of the face.
Figure 11: Mauer Mandible
The Mauer mandible is large, suggesting a massive individual. It has no clear Neandertal traits, instead resembling a generalized archaic Homo sapiens form. Discovered in 1908 during a mining operation, this find has been dated at around 500,000 years (Figure 11). Like the Steinheim skull, though, it has characteristics advanced over Homo erectus, with teeth intermediate in size between that form and the Neandertals that followed. It is this fossil that is the hypodigm of Homo heidelbergensis—that is, the sample from which the characters of that population is to be inferred.
Figure 12: Arago
From France comes the important skull from the site of Arago (Figure 12). The cranial remains consists only of the face and frontal bone (the rest has been reconstructed on the figure to the left) but the face is relatively undistorted, revealing a morphology similar to that of SH5 from Atapuerca and Petralona, with heavy brow ridges and large maxillary sinuses. A mandible and partial pelvis were discovered along with the cranial remains. Through biostratigraphy and uranium series dating, the find is thought to be between 300 and 400 thousand years old, making it contemporary with those similar remains.
Archaic Homo sapiens: A Taxonomic Mess
One of the greatest challenges facing students of human evolution comes at the tail end of the Homo erectus span. After Homo erectus, there is little consensus about what taxonomic name to give the hominins that have been found. As a result, they are assigned the kitchen-sink label of “archaic Homo sapiens.”
Tattersall (2007) notes that the Kabwe skull bears more than a passing resemblance to one of the most prominent finds in Europe, the Petralona skull from Greece. In turn, as I mentioned above, the Petralona skull is very similar to one of the most complete skulls from Atapuerca, SH 5, and at least somewhat similar to the Arago skull.
Further, it is noted that the Bodo cranium from Africa shares striking similarities to the material from Gran Dolina (such as it is). This suggests that, as was the case with Homo erectus, there is widespread genetic homogeneity in these populations. Given the time depth involved, it is likely that there was considerable and persistent gene flow between them. Tattersall (2007), argues that, since the first example of this hominin form is represented by the Mauer mandible, the taxonomic designation Homo heidelbergensis should be used to designate these forms. This would stretch the limits of this taxon, however, since it would include the later forms from Africa as well. If there was considerable migration and hybridization between these populations, it could be argued that a single taxon makes sense. However, at present, there is no definitive material evidence for such migration, or widespread agreement on calling all these hominins anything other than “archaic Homo sapiens.”
Next, East Asian Archaic Homo sapiens.
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Re: Beginners guide to evolutionary theory
I know this thread is a little old but I would definitely recommend "Why Evolution is True" by Jerry Coyneneo-x wrote:Paul, I am reading the selfish gene and the Ancestors Tale. So far its not that bad. But was hoping for something more interesting. Oh! well....
An excellent contemporary book that is extremely well respected and covers the basics of the theory of evolution.
Goes over evolution, gradualism, speciation, common ancestry, natural selection, genetic drift, the fossil record, DNA evidence, vestiges, embryos, bad design, the distribution of species and much much more.
Check it out
I do not feel obliged to believe that same God who endowed us with sense, reason, and intellect had intended for us to forgo their use.
-Galileo Galilei
What comes into our minds when we think about God, is the most important thing about us.
-A.W. Tozer
-Galileo Galilei
What comes into our minds when we think about God, is the most important thing about us.
-A.W. Tozer