Language Warning: You are not logged in. Your IP address will be publicly visible if you make any edits. If you log in or create an account, your edits will be attributed to your username, along with other benefits.Anti-spam check. Do not fill this in! ===The brain=== {{main|Neurolinguistics|Language processing in the brain}} [[File:Brain Surface Gyri.SVG|thumb|Language Areas of the brain. {{legend|#ffae76|[[Angular gyrus]]}} {{legend|#fcfb99|[[Supramarginal gyrus]]}} {{legend|#b5d9ed|[[Broca's area]]}} {{legend|#b7d09e|[[Wernicke's area]]}} {{legend|#f7a8b7|[[Primary auditory cortex]]}}]] The brain is the coordinating center of all linguistic activity; it controls both the production of linguistic cognition and of meaning and the mechanics of speech production. Nonetheless, our knowledge of the neurological bases for language is quite limited, though it has advanced considerably with the use of modern imaging techniques. The discipline of linguistics dedicated to studying the neurological aspects of language is called [[neurolinguistics]].<ref name="Lesser205">{{harvcoltxt|Lesser|1989|pp=205β206}}</ref> Early work in neurolinguistics involved the study of language in people with brain lesions, to see how lesions in specific areas affect language and speech. In this way, neuroscientists in the 19th century discovered that two areas in the brain are crucially implicated in language processing. The first area is [[Wernicke's area]], which is in the posterior section of the [[superior temporal gyrus]] in the dominant cerebral hemisphere. People with a lesion in this area of the brain develop [[receptive aphasia]], a condition in which there is a major impairment of language comprehension, while speech retains a natural-sounding rhythm and a relatively normal [[syntax|sentence structure]]. The second area is [[Broca's area]], in the posterior [[inferior frontal gyrus]] of the dominant hemisphere. People with a lesion to this area develop [[expressive aphasia]], meaning that they know what they want to say, they just cannot get it out.<ref>{{harvcoltxt|Trask|1999|pp=105β107}}</ref> They are typically able to understand what is being said to them, but unable to speak fluently. Other symptoms that may be present in expressive aphasia include problems with [[word repetition]]. The condition affects both spoken and written language. Those with this aphasia also exhibit ungrammatical speech and show inability to use syntactic information to determine the meaning of sentences. Both expressive and receptive aphasia also affect the use of sign language, in analogous ways to how they affect speech, with expressive aphasia causing signers to sign slowly and with incorrect grammar, whereas a signer with receptive aphasia will sign fluently, but make little sense to others and have difficulties comprehending others' signs. This shows that the impairment is specific to the ability to use language, not to the physiology used for speech production.<ref>{{harvcoltxt|Trask|1999|p=108}}</ref><ref>{{harvcoltxt|Sandler|Lillo-Martin|2001|p=554}}</ref> With technological advances in the late 20th century, neurolinguists have also incorporated non-invasive techniques such as [[functional magnetic resonance imaging]] (fMRI) and [[electrophysiology]] to study language processing in individuals without impairments.<ref name="Lesser205"/> Summary: Please note that all contributions to Christianpedia may be edited, altered, or removed by other contributors. If you do not want your writing to be edited mercilessly, then do not submit it here. You are also promising us that you wrote this yourself, or copied it from a public domain or similar free resource (see Christianpedia:Copyrights for details). Do not submit copyrighted work without permission! Cancel Editing help (opens in new window) Discuss this page