Why a lowered larynx is good for human speech production

Ok, there’s loads of theories as to why humans have a lowered larynx. I went to a talk about this in York probably about a year ago now and when I started reading about all this again it all came back and I thought I’d share Mark Jones‘ hypothesis with you all.

First, here’s a brief history of lowered larynx theories:

Whilst other primates have the ability to lower their larynx to make vocalisations it is only humans who have it permanently lowered. This means that humans when swallowing have to raise the larynx. This is thought to have not evolved in other species as it creates a significant risk of choking on food if the larynx is not raised on time. So if it’s so maladaptive how come it evolved in Humans?

Continue reading “Why a lowered larynx is good for human speech production”

Referential labelling in Diana Monkeys

ResearchBlogging.org Ok, so I was going to write an essay for my Origins of Language module on this but then got distracted by syntax (again) so I thought I’d put my thoughts in a blog post just so they don’t go to waste.

Diana monkeys, like vervet monkeys, use alarm calls to communicate the presence of a predator to other monkeys.

They produce (and respond to) different alarm calls corresponding to how close the predator is, whether the predator is above or below them and whether the predator is a leopard or an eagle.  They respond instantly regardless of how imminent an attack is.

In this post I will explore some of the evidence relating to how sophisticated the Diana monkey’s understanding of the call’s meaning is and also the mental mechanisms relating to the call’s production.

Zuberbühler (2000a) discusses some types of species which have alarm calls but instead of each alarm call representing a different predator, each alarm call represents a different level (or types) of danger. The aim of the Zuberbühler paper then, was to set out if this was the case for Diana monkeys or if they really did have referential ‘labels’ for different predators.

Continue reading “Referential labelling in Diana Monkeys”

What can Hungarian Postpositions tell us about Language Evolution?

I spent quite a lot of time as an undergraduate analysing Hungarian syntax with my generative head on and using the minimalist framework. Bear with me. This post is the result of me trying to marry all of them hours spent reading “The Minimalist Program” (Chomsky, 1995) and starring at Hungarian with what I’m currently doing¹ and ultimately trying to convince myself that I wasn’t wasting time.

So here’s a condensed summary of what my dissertation was about:

Hungarian has a massive case system which, as well as structural cases, has many items which have locational, instrumental and relational uses (lexical case markers). Because of this many constructions which feature prepositions in English, when translated into Hungarian can be translated as case markers or postpositions.

It struck me as odd that these 2 things; case markers and postpositions, despite having the same position in the structure (as a right-headed modifier to the noun) and very similar semantic function, would have different analyses in the syntactic framework, simply due to the fact that one was morphologically attached (case markers) and the other not (postpositions).

Continue reading “What can Hungarian Postpositions tell us about Language Evolution?”

New Language and Genetics department

Next week, on the 1st October, there will be a new language and genetics department opening at the Max Planck Institute, the first research department in the world entirely devoted to understanding the relationship between language and genes!!!

This excites me so I wanted to share the news.

This statement is from Simon Fisher, who will head the new department about what they will be trying to achieve:

‘We aim to uncover the DNA variations which ultimately affect different facets of our communicative abilities, not only in children with language-related disorders but also in the general population, and even through to people with exceptional linguistic skills’, says L&G director Simon Fisher. ‘Our work attempts to bridge the gaps between genes, brains, speech and language, by integrating molecular findings with data from other levels of analysis, particularly cell biology and neuro-imaging. In addition, we hope to trace the evolutionary history and worldwide diversity of the key genes, which may shed new light on language origins.’

More signs of the growing and diversifying field of language evolution!

Here’s a link to the news on the MPI website: http://www.mpi.nl/news/new-mpi-department-language-genetics

Where does the myth of a gene for things like intelligence come from?

As a linguist I struggle with genetics, I am, however, as an evolution geek, very interested in it. This creates all sorts of problems and high levels of anxiety when talking about FOXP2 and other genes, due to fear that I misunderstand the very highly complex interactions which exist between genes, environmental effects or cascading effects which cannot be summed up in a simple “x gene causes x trait in humans” paradigm.

I would like to point everyone towards a new blog Dorothy Bishop’s written over at guardian science blogs:

Where does the myth of a gene for things like intelligence come from?

Which is about busting the widespread belief (for idiots like me) that individual genes determine traits such as intelligence, optimism, obesity and dyslexia. I find it interesting that this is presented in the blogs section and not as a mainstream article.

She points out on Twitter this morning that the Jedward pic was not her idea. (I add this point because I found it weirdly comforting)

And it’s also lovely to see that at the bottom of the pile of comments is a well articulated reply by Dorothy to individual users.

I love blogging, because there exists  the ability for individuals to reply to claims made about them, primary sources (papers &c.) are cited and checkable and there’s none of the unnecessary dumbing down found in mainstream media. Here’s an article by Ben Goldacre expanding on this subject (which incidentally includes work by Dorothy Bishop).

Here is a parable about how, as a blogger, my claims were checked, discussed and ultimately concluded to be bollocks. (I don’t have a contrastive parable about what would have happened if I’d instead made these claims in the mainstream media but many stories of this nature can be found here.)

If you read the blog post I wrote about links between Autism and SLI you would have seen me make this claim:

the CNTNAP2 gene has been found in independent samples to be associated with both ASD and SLI. This is interesting because it could show that gene mutations which cause improved social abilities could have also caused changes in our linguistic ability on a syntactic or phonological level.

This blog post cited the work of Dorothy Bishop quite heavily and she took the time out to come and tell me problems with it. Here’s what she said:

As you anticipated, I think there are some problems with the implications you draw from the work. There are two issues. The first is that the variants of CNTNAP2 associated with language level are not mutations. You would usually only use that term in the case where most people had the same DNA sequence in a gene, but rare individuals had a different DNA sequence. FOXP2 is a case in point: there is a family, the KE family, who have a mutation affecting around half the family members, where the DNA sequence is changed. For most people in the general population, and for most people with SLI, the FOXP2 sequence is the same.

The CNTNAP gene is very different. The DNA sequence has different versions in different people, and one version, which is pretty common in the general population, is associated with a small decrease in language abilities, but most people with this version would not be recognised as having any language impairment. Most researchers now think that SLI is probably the result of the combined effect of many genes, each of which may nudge language ability up or down a bit. In this regard, language ability is rather like height: there are rare mutations that may make a person drastically tall or short, but most variation in height arises from combined effect of many small influences of genes that show DNA variation in the normal population.

The second issue concerns the evidence for CNTNAP2 being involved in both SLI and autism. Many people in the field do think this means that the same gene that can cause SLI can also cause autism, and that the only difference is that people with autism have additional difficulties going beyond language – what I have termed the ‘autism as SLI plus’ model. I supported that model in the past, but there are some facts that are hard to square with it. First, although many people with autism have structural language problems (affecting grammar and phonology) similar to those in SLI, not all of them do. So people with high-functioning autism or Asperger syndrome may have well-developed skills in syntax and phonology, while still having difficulties with pragmatics. The second point, which is a big problem for a simple genetic account, is that whereas the relatives of people with SLI often have some difficulties with structural language, we don’t usually see that in relatives of people with autism, even if the person with autism has poor language skills. It was this latter point that I was particularly keen to try and explain in my paper. The bottom line is that to explain the pattern of data we need to think in terms of interactions between genes (technically known as epistasis). So there are genetic variants that increase risk of autism, and others that increase risk of SLI. Most of these will have an individually small effect. However, if you have a risk variant for a gene influencing SLI (such as CNTNAP2) in the context of having a genetic risk for autism, the effect on language will be much worse. According to this model CNTNAP2 doesn’t affect both social cognition and language; rather it affects language, but that effect will get multiplied if the person also has risk factors for autism.

Which is SOOOO interesting.

I’d really like to thank her for replying, it’s really lovely to know that high-flying academics are willing to help out when a sincere blogger tries to understand something and falls on their arse.

Specific Language Impairment, Autism and Language Evolution

My last post speculated about what some conditions which manifest impaired theory of mind could tell us about the evolution of ToM. Of these conditions autism was one which could be the most informative when it comes to looking at the genetics of how ToM evolved, in this post I will look at what autism could tell us, not only about theory of mind, but also about other aspects of the language faculty.

Dorothy Bishop has recently written a paper exploring the above average co-occurrence of Specific Language Impariment (SLI) and Autistic Spectrum Disorders (ASD).

SLI is a condition where a child fails to develop spoken language on the normal schedule, for no observable or obvious reason (Bishop and Norbury 2008). Whilst ASD and SLI are regarded as distinct conditions, these disorders co-occur at above chance levels.

Bishop (2010) explores why this might be. Bishop begins her paper by painting a textbook example of a child with SLI. This example is of a child with normal social interaction and nonverbal communication, but with specific difficulties in mastering structural aspects of language, especially syntax and phonological skills. So this typical picture is not one of an autistic child in that one of the defining features of autism is a limited capacity for normal social interaction and a child is much more likely to be deficient in pragmatic skills than syntactic or phonological skills.

Bishop states that despite the fact that according to conventional diagnostic frameworks, SLI andASD are mutually exclusive diagnoses, similarities exist between the two conditions and these include:

  • They are both highly heritable
  • Identical, monozygotic twins are significantly more concordant than fraternal, dizygotic twins for autism and SLI
  • In both conditions rates of impairment in first degree relatives are higher than in the general population
  • First degree relatives of affected individuals of both conditions often manifest sub-threshold symptoms
  • These conditions correspond to points on a continuum of impairment, rather than all-or-none diseases

So any model of causation for either condition must take into account the following considerations:

  • Above chance levels of comorbidity between SLI and ASD
  • Rates of language impairment in relatives of probands with SLI and ASD
  • Molecular genetic findings of shared genetic risk factors for ASD and SLI

Now the article goes on to explore etiological models which explain these considerations with varying degrees of success. I’m not going to pretend to understand these models as I have only ever been formally taught in linguistics and so I’m a bit stumped by genetic psychology. If you’re much smarter than me you can read the article yourself here:

http://www.springerlink.com/content/gg087q4h51j5127g/fulltext.pdf

So what I got from this article was that the genetic factors involved in autism can not only cause the characteristics typical of a person with autism (pragmatic impairments) but also other language impairments which are typical of a person with a Specific Language Impairment. Specifically the CNTNAP2 gene has been found in independent samples to be associated with both ASD and SLI. This is interesting because it could show that gene mutations which cause improved social abilities could have also caused changes in our linguistic ability on a syntactic or phonological level.

Disclaimer: Sorry if I’ve made too many assumptions in the conclusion I’ve just drawn. As I said above I know next to nothing about genetic psychology but I just felt this research would have interesting consequences in the field of language evolution. I’d love to hear the thoughts of people who know better than I do.

References

Bishop, DVM. (2010) Overlaps Between Autism and Language Impairment:
Phenomimicry or Shared Etiology? Behavior Genetics 40:5, 618-629

Bishop DVM, Norbury CF (2008) Speech and language disorders. In: Rutter M, Bishop DVM, Pine D, Scott S, Stevenson J, Taylor E, Thapar A (eds) Rutter’s child

Theory of Mind and Language Evolution; What can psychopathology tell us?

Theory of Mind is the ability to infer other persons’ mental states and emotions. It is thought to have evolved as part of the human’s social brain and probably emerged as an adaptive response to increasingly complex primate social interaction.

Brüne and Brüne-Cohrs (2006) explore the ‘evolutionary cost’ of language evolution:

This sophisticated ‘metacognitive’ ability comes at an evolutionary cost, reflected in a broad spectrum of psychopathological conditions. Extensive research into autistic spectrum disorders has revealed that theory of mind may be selectively impaired, leaving other cognitive faculties intact. Recent studies have shown that observed deficits in theory of mind task performance are part of a broad range of symptoms in schizophrenia, bipolar affective disorder, some forms of dementia, ‘psychopathy’ and in other psychiatric disorders.

Now it’s fairly uncontroversial to assert that without the ability of theory of mind humans would have never evolved language (Sperber and Wilson, 2002). This is due to the fact that if one can’t attribute another to have a ‘mind’ like ones own, or assume that other minds hold different information to ones own then one would see little point in trying to share information. (I’m sorry for the amount of ‘ones’ in that sentence).

Sooo, it does not seem presumptuous to assume that people interested in the evolution of language should be interested in theory of mind, in fact for many years evolutionary linguists, psychologists and biologists have been looking into this, but mostly through observing the behaviour of animals, and especially primates to see if they display theory of mind capabilities. A good summary of this work can be found here, and a lot of relevant studies can be found on this blog in the What makes humans unique? posts by Michael. I’m not going to look at the animal data in this post, but instead what the deficiencies in some human conditions can tell us about the evolution of theory of mind. That is, what can autism, schizophrenia, bipolar affective disorder, dementia, ‘psychopathy’ and other psychiatric disorders tell us?

Continue reading “Theory of Mind and Language Evolution; What can psychopathology tell us?”

Marc Hauser investigated for scientific misconduct

The Boston Globe reported today that Marc Hauser is on leave due to scientific misconduct . The Great Beyond summarises the article as follows:

The trouble centers on a 2002 paper published in the journal Cognition (subscription required). Hauser was the first author on the paper, which found that cotton-top tamarins are able to learn patterns – previously thought to be an important step in language acquisition. The paper has been retracted, for reasons which are reportedly unclear even to the journal’s editor, Gerry Altmann.

Two other papers, a 2007 article in Proceedings of the Royal Society B and a 2007 Science paper, were also flagged for investigation. A correction has been published on the first, and Science is now looking into concerns about the second. And the Globe article highlights other controversies, including a 2001 paper in the American Journal of Primatology, which has not been retracted although Hauser himself later said he was unable to replicate the results. Findings in a 1995 PNAS paper were also questioned by an outside researcher, Gordon Gallup of the State University of New York at Albany, who reviewed the original data and said he found “not a thread of compelling evidence” to support the paper’s conclusions.

Hauser has taken a year-long leave from the university.

Continue reading “Marc Hauser investigated for scientific misconduct”

Language evolution in the laboratory

When talking about language evolution there’s always a resistance from people exclaiming;  ‘but how do we know?’, ‘surely all of this is conjecture!’ and, because of this, ‘what’s the point?’

Thomas Scott-Phillips and Simon Kirby have written a new article (in press) in ‘Trends in Cognitive Science’ which addresses some of the techniques currently used to address language evolution using experiments in the laboratory.

The Problem of language evolution

The problem of language evolution is one which encompasses not only the need to explain biologically how language came about but also how language came to be how it is today through processes of cultural evolution. Because of this potential ambiguity arises when using the term ‘language evolution’. To sort this ambiguity the authors put forward the following:

Language evolution researchers are interested in the processes that led to a qualitative change from a non-linguistic state to a linguistic one. In other words, language evolution is concerned with the emergence of language

Continue reading “Language evolution in the laboratory”

Language Evolved due to an “animal connection”?

New hypothesis of language evolution. Language Evolved due to an “animal connection” according to Pat Shipman:

Next, the need to communicate that knowledge about the behavior of prey animals and other predators drove the development of symbols and language around 200,000 years ago, Shipman suggests.

For evidence, Shipman pointed to the early symbolic representations of prehistoric cave paintings and other artwork that often feature animals in a good amount of detail. By contrast, she added that crucial survival information about making fires and shelters or finding edible plants and water sources was lacking.

“All these things that ought to be important daily information are not there or are there in a really cursory, minority role,” Shipman noted. “What that conversation is about are animals.”

Of course, much evidence is missing, because “words don’t fossilize,” Shipman said. She added that language may have arisen many times independently and died out before large enough groups of people could keep it alive.

Nothing but wild conjecture as usual but still interesting.

Original article here.