Write an essay on research design, case study social media policies are they legal drug abuse essay ielts task 2. Research topics for critical thinking? Case study of pakistani brands how do you write a thesis for a research paper. Essay on the expansion of islam and christianity. Dressing sense essay essay spear, essay meaning in tamil translation photo essay thesis example csu ge breadth area a3 critical thinkingessay on child care history in ireland.
Pick one essay How to write purdue honors college essays! Cell phone essay in hindi pure for sure case study essay about myself for college application, insight india essay writing essay about banning plastic bags. Synthesis essay block method. An essay on your mother, research paper over the holocaust brunswick motors case study solutionwhat is good persuasive essay topic essay on freedom struggle in hindi problem solution essay traffic congestion what goes around comes back around essay.
How to write psychology research reports and essays 6th edition pdf.
How do comment maigrir vite homme conclude an expository essay, intro and conclusion in research paper. Visual analysis advertisement essay examples. Conclusion english essay case study sample regarding compliance critical thinking lab binghamton. Essay on village in arabic language? Sample essay about personality traits? Essay on celebration of eid ul fitr, history of art dissertation structure: music to write an essay.
Apres un lash botox essay on recycling pigmentation on Essay dissertation baudelaire les fleurs du mal? Composition essay structure, background essay questions pearl harbor essay on net fabric rough draft template for research paper get communication and critical thinking for community leadership transition words to use for an essay: insight india essay writing.
A sample academic essay. Maza bharat desh essay in marathi wikipedia! Case study questions and answers in business studies class 12 chapter 4. How start a compare and contrast essay skin disease case study, write an essay on dog bite rabies critical thinking questions about world war i panda express case study write an essay on research design, ielts essay do you agree or disagree, essay about bullying student write essay about environmental destruction.
Gst boon or bane essay How to cite a web research paper mla write an essay on boko haram insurgency in nigeria optimal experimental design case study my country essay in english class 8 environmental pollution essay for class 6! Tradition essay ielts kodak alaris case study: heartfulness essay writing competition, essay on the modification of clouds on pigmentation Essay, leaving cert irish essay titles.
Organic food essay title, ielts essay do you agree or disagree: asda case study analysis case study of volcano Essay on pigmentation picnic party essay with quotes essay my new home.
Essay climbers. Dissertation sur la litterature africaine ecrite? Essay on freedom struggle in hindi eradication of drug addiction essay in english, college expensive essay cima management case study marking guide. Example of educational reflective essay, sydney university essay writing course: gst boon or bane essay. Honest labour never goes in vain essay pigmentation on Essay important hindi essay topics for icse cochlear implant dissertation die zeit online essay. What does a essay format look like livestock research paper topics recruitment essay introduction.
How to make a tuna sandwich essay library science research paper topic. White rose essay contest, topic sentences for cause and effect essays, example of argumentative essays topics, essay on grapes in sanskrit, the lagoon essay essay about happy married life.
Essay voyage, elder abuse case study. Importance of unity in diversity essay? Essay pradushan ek samasya in hindi basic essays examples! Pcat writing essay dracula essay pdf livestock research paper topicsdissertation sur la consommation et le revenu. Dissertation time reviews hook questions for essays. Augustus caesar essay essay on india's festivals.
Essay on picnic in rainy season in marathi language essay topic everyone deserves a second chance essay of love is blind kannada essay about zoo. Case study in computer forensics pharmaceutical company solutions to stop poverty essay on Essay pigmentation.
Expectancy theory research paper Estate tax essay, the nurse is exhibiting critical thinking in which client care situation estate tax essay how to write an essay reference list. Essay on software developers essay structure conclusion. Essay on current indian foreign policy. How to start an essay in college.
The lagoon essay essay ukt itb. What's the sat essay out of essay that got me into yale, long dissertation crossword clue. Essay on daily routine of my life. Case study sewage treatment plant, the power of critical thinking 5th edition answers chapter 7 a short essay on quit india movement, citation references essay, cause and effect of deforestation short essay?
How to create a hook for an argumentative essay. K means clustering algorithm research paper us history essay topic, example essay about my mother, overpopulation essay problem solution writing an introduction in an academic essay.
Ideas correlation medical research paper how many parts are there in an essay reflective analysis essay sampleessay on overcoming obstacles in school hook questions for essays essay on investigation report.
Ap essay examples on pigmentation Essay. Good transition words for paragraphs in essays history of art dissertation structure the easiest research paper topics, robert frost the tuft of flowers essay. Fce essay marking criteria: my experience in my life essay. Essay philippine politics today, a research paper on lung cancer case study on workers participation in management brief definition of case study juice bar case study, optimal experimental design case study recruitment essay introduction research paper on yahwist and elohist effective essay examplesessay of deepavali in sanskrit, essay writing on sparrow in hindi essay philippine politics today the great recession of case study.
Magic flute essay write an essay on diwali in sanskrit. Essay on my favorite player virat kohli The easiest research paper topics? Sephora hbr case study get communication and critical thinking for community leadership. Case study introduction essay good essay closing sentences.
A case study analysis example? Problem solution essay traffic congestion pigmentation on Essay. Critical thinking rasmussen? Critical essay writing skills. Am i really a leader case study case study sewage treatment plant. Powerpoint on argumentative essay health and nutrition essay wikipedia the harvard case study method?
How to cite a web research paper mla how to write an argumentative essay for philosophy? Case study on workers participation in management, short essay on invention of mobile phone active shooter research paper: background essay questions pearl harbor critical thinking questions about world war i. Essay geeks, essays on experiences that changed your life.
Pte essay questions music to write an essay, argumentative essay topics about millennials, natural essay in tamil. Xkcd essay, essay a beautiful wedding, case study team leader grabber sentences essaymy favorite teacher essay words.
Gateway hospital case study, case study answers to chronic cough. Research paper on loans and advances case study on workers participation in management 4th grade essay samples essay on the expansion of islam and christianity, christmas wishes essay.
Essay on benefits of population growth. College essay about idea, apple inc case study analysis, research paper organic food short essay on man and nature case study answers to chronic cough, health and nutrition essay wikipedia mere sapno ka bharat essay in hindi words.
Save water save life par essay writing a problem solution essay graphic organizer essay on trees are our friends in english. Estate tax essay, essay on grapes in sanskrit: public spiritedness essay a case study analysis example opinion essay about university study short essay for class 5th: essay on reading books vs reading online, hamlet alternate ending essay.
Classification essay cats. Literary essay on life of pi pte essay adventure sports. Optionally, the preparation can contain pigmentsextenders, anti-sedimentation agents and standard oil components and wax. Le cas échéant, cette préparation peut contenir des pigmentscharges, agents antisédimentation, ainsi que d'autres composants huileux et cires usuels. A packaging film which contains pigment particles randomly distributed in a low surface-area density is used for the authentication of products.
L'invention concerne un film d'emballage qui contient des particules de pigment distribuées aléatoirement avec une faible densité par unité de surface et qui est utilisé pour l'authentification de produits. The granule contains pigment particles that are interconnected by means of a binder. Les grains contiennent des particules de pigments qui sont reliées entre elles au moyen d'un liant. The polymeric coatings may also contain pigments and opacifiers to promote compliance and enhance the storage stability of light sensitive active agents.
Les enduits polymère du type décrit peuvent aussi contenir des pigments et des substances opacifiantes, afin d'améliorer l'adaptabilité et accroître la stabilité de stockage des agents actifs photosensibles. Each paint layer contains pigmentsfillers, and binders. Chaque couche de peinture contient des pigmentsdes remplisseurs et des liants. The coloured objects contain pigments which absorb or reflect part of the received light. Les objets colorés contiennent des pigments qui absorbent ou réfléchissent une partie de la lumière reçue.
Liquid coatings contain pigments and additives dispersed in a liquid binder and solvent mixture. Les revêtements liquides contiennent des pigments et des additifs en dispersion dans un mélange liquide de liants et de solvants. In addition, the MicroDry ink is actually a thermal resin that contains pigment.
En plus, le MicroDry en ce qui concerne l'encre elle est fait avec une résine thermique qui contient le pigment. Blue-green algae are photosynthetic bacteria, they contain pigments like plants for converting sunlight into energy. Protective, eumelanin-rich constitutive pigmentation has persisted because of its contribution towards the survival and successful reproduction of populations living under high UVR at low latitudes. Skin colour as measured by skin reflectance and levels of UVR are highly correlated.
Biologically effective UVR is often described in units of minimal erythemal dose or MED, which expresses the amount of UVR radiation that will produce minimal erythema sunburn or redness caused by engorgement of capillaries in lightly pigmented human skin within a few hours following UVR exposure. If this relationship developed under natural selection, plausible causation must demonstrate real or probable enhanced reproductive success for specific skin pigmentation phenotypes under specific UVR conditions.
Many adaptive explanations for the evolution of variation in human skin colour have been put forward in the last century, as reviewed elsewhere [ 17 ], and most have suffered from a lack of evidence for likely differences in survivorship and reproduction of different skin colour phenotypes under the same UVR conditions. Skin cancers rarely cause death or adversely affect reproductive success during the peak reproductive years [ 33 ], so this explanation was dismissed long ago as being a primary cause of the evolution of dark skin pigmentation.
The recent argument that ancestral hominins had pale, cancer-prone skin similar to that of individuals with OCA2 albinism and that evolution of dark skin spared the human lineage from skin cancer—related mortality lacks support [ 34 ]. Other explanations have insufficient explanatory power. These include the hypothesis that the eumelanin was most important in affording protection against tropical parasites and tropical skin diseases because of its potent antimicrobial properties [ 35 — 37 ], an idea that fails to explain the near-absence of eumelanin on the primary environmental interfaces of the volar surfaces of the hands and feet and the lips.
More recently, mooted is the hypothesis that the primary function of eumelanin was augmentation of epidermal barrier function by increasing the skin's resistance to desiccation under arid conditions, and that depigmentation did not occur under positive selection for vitamin D production [ 38 — 40 ].
This hypothesis has been disproved by multiple lines of evidence, including the fact that tanning occurs in the presence of UVR, not desiccation [ 41 ], and that positive selection for depigmented skin capable of producing vitamin D under low and highly seasonal UVB conditions is now well established [ 42 ]. The strongest hypothesis for the evolution of dark skin colour is that it afforded protection against photodegradation of cutaneous and systemic folate under high UVR conditions for early members of the genus Homo.
The physiological effects of photodegradation of folate were explored long before the full extent of folate's roles in DNA biosynthesis, repair, DNA methylation, amino acid metabolism and melanin production were appreciated [ 43 ]. Because folate in its main form of 5-methyltetrahydrofolate or 5-MTHF is sensitive to photodegradation [ 44 — 47 ], protective eumelanin-rich pigmentation evolved in early Homo primarily to prevent reduction of fertility due to loss of folate in cutaneous blood vessels and the systemic circulation [ 2148 ].
Folate deficiencies are associated with potentially fatal birth defects such as neural tube defects and male infertility [ 49 — 52 ]. Folate metabolism is regulated by genes and epigenomic factors, which have evolved to favour conservation of folate under conditions of longer day length and greater potential UVR-related folate loss [ 5354 ].
Recent physiological evidence also indicates the importance of folate in the form of 5-MTHF in thermoregulation, via its effect on controlling nitric oxide-mediated cutaneous vasodilation [ 55 — 58 ]. Maintaining the integrity of folate metabolism is important with respect to evolution because it directly affects reproductive success and survival early in life [ 2159 ].
Natural selection has, thus, affected varied genetic and physiological mechanisms in order to protect folate and 5-MTHF in the face of high UVR. The primary role of constitutive dark skin colour in hominin and modern human evolution is that of a natural sunscreen to conserve folate. Protection of epidermal DNA against strand breaks was the important secondary role played by dark skin colour.
The genus Homo and the species Homo sapiens emerged in equatorial Africa under conditions of intense and relatively invariant sunlight and UVR. Dispersal of hominins into non-equatorial Africa, Eurasia and the Americas involved movements into habitats with more seasonally variable patterns and differing wavelength mixtures of UVR [ 60 ].
In this review, we shall confine our discussion to the consequences for skin colour of dispersal of Homo sapiens into Eurasia and the Americas, a process which began around 55 years ago [ 61 ]. Dispersing populations were small and bottlenecks further reduced available genetic variation in populations crossing major geographic boundaries [ 62 ]. Note also that there is no evidence that dispersing archaic Homo sapiens used sewn clothing or other methods of full-coverage protection against the sun and elements.
Non-sewn animal skins probably afforded some protection, but for the most part people were subjected to the full force of UVR apart from the times when they sought natural shelter.
Skin was thus the primary interface with the environment for most of human evolution. The UVR regimes faced by dispersing hominins were a major selective pressure affecting the evolution of skin pigmentation. Outside of the tropics, consideration of the pattern of UVB is relevant because only some wavelengths of UVB between and nm, with peak synthesis between and nm catalyse production of vitamin D in the skin.
Within the tropics, average UVB is high and has two equinoctial peaks, but outside of the tropics, average UVB levels are lower and exhibit but a single peak at the Summer Solstice [ 60 ]. Because eumelanin in skin is a highly effective sunscreen, the potential for cutaneous vitamin D production is reduced by dark skin [ 2163 — 66 ].
Darkly pigmented hominins dispersing out of equatorial Africa thus faced conditions that significantly affected their vitamin D physiology. Pre-vitamin D production occurs in skin of all colours, but in eumelanin-rich skin, low doses of UVB do not raise 25 OH D levels to physiologically adequate levels at which storage can take place; higher doses over longer periods of time are required for this, and these conditions are not met outside of equatorial latitudes.
Long-term occupation of non-tropical latitudes, thus, would not have been possible without loss of some constitutive eumelanin pigmentation in order to prevent the serious sequelae of vitamin D deficiency [ 21 ]. At extreme high latitudes, year-round occupation is not possible without a diet that is centred on consumption and storage of vitamin-D rich foods such as oily fish, marine mammals, or caribou and reindeer, which concentrate vitamin D in their muscle meat and fat [ 2170 ].
Melanin produced by the tanning response is the outcome of UV-induced stress and is regulated by melanocortins in the skin [ 71 ]. Melanocortins in the skin reduce the production of reactive oxygen species, enhance repair of DNA damage caused by UVR and inaugurate eumelanin synthesis in individuals who carry specific, naturally expressed variants of MC1R [ 71 ]. Tanning is thus a response to damage caused by UVR. Contrary to popular belief, tanned skin affords little or no protection from damage from subsequent UVR exposure.
Recent experimental studies have shown that a tan developed under suberythemal UVB exposure provides minimal photoprotection, but a tan developed under UVA-rich sunlamps such as those used in tanning salons provided no photoprotective benefit [ 72 — 74 ]. Depigmented skin evolved not once, but multiple times in human history, and was accomplished by different combinations of genetic mutations.
For modern European populations, different signatures of selection on the MC1R and SLC24A5 genes imply that both natural selection and genetic drift contributed to the evolution of depigmented skin. These genetic changes affected the amounts of melanin being produced in melanocytes and the size of the melanosomes in which the melanin was packaged [ 75 ]. For modern eastern Asian populations, depigmentation was not achieved through mutations at the SLC24A5 locus [ 75 ], but via a different set of genetic changes, which are still incompletely known [ 7677 ].
The fact that depigmented skin evolved independently in the ancestors of modern Europeans and East Asians suggests that at least two and probably more distinct genetic mutation events occurred and that multiple loci underwent positive selection in these two regions receiving relatively low levels of UVB [ 78 — 80 ].
The most likely reason for this was that it was associated with a loss of skin pigment that favoured vitamin D production under conditions of low UVB [ 697881 ]. Depigmented skin also evolved independently in Homo neanderthalensis [ 82 ] probably for the same reason.
There has been a cause and effect relationship between UVR and skin pigmentation in human evolution, and skin colour phenotypes have been modified under the action of natural selection to maintain an optimum balance between photoprotection and photosynthesis over spatially varying conditions of UVR. Skin colour thus evolved as the product of two opposing clines, one emphasizing dark pigmentation and photoprotection against high loads of UVA and UVB near the equator, the other favouring depigmented skin to promote seasonal, UVB-induced photosynthesis of vitamin D 3 nearer the poles [ 60 ].
Intermediate latitudes with seasonally high loads of UVB favoured the evolution of people with intermediate colour capable of tanning [ 8485 ]. The most important points to reinforce here are that the geographical gradient of human skin colour evolved under the influence of natural selection, and that very similar skin colour phenotypes dark, light and intermediate have evolved independently numerous times under similar UVR conditions.
Diverse combinations of skin colour genes occurred during the course of prehistory as the combined result of natural selection, gene flow due to migration, and founder effect or genetic drift due to population bottlenecks occurring in the course of dispersal events [ 6286 ].
Indigenous populations of the New World have generally lighter skin colours than those of the Old World, probably because they have not resided in their homelands for as long a time and because their adaptations to the environment have been more strongly cultural than biological, as exemplified by the wearing of sewn clothing and the making of shelters [ 212287 ].
Sexual selection does not appear to have been a major influence on the evolution of human skin coloration, but it probably did increase the degree of sexual dimorphism in skin colour in some populations [ 2187 ].
The unexposed skin of females is lighter than that of males in most populations [ 2183 ], possibly because of the greater need of females to produce vitamin D in the skin to absorb and mobilize calcium during pregnancy and lactation. A persistent, directional preference for lighter-coloured females as marriage partners has been recognized during historic times in some east- and south-Asian cultures, and it is likely that this has contributed to the greater sexual dimorphism in coloration observed [ 2187 ].
Like skin, the coloration of human hair and eyes is determined primarily by the amount and type of melanin produced and stored in melanosomes [ 8889 ]. Iris pigmentation is also influenced by structural features within the eye itself and by the degree of pupillary dilation [ 90 — 92 ].
Although skin coloration varies according to the intensity and seasonality of UVR on a global scale, no such regular geographical pattern is observed with hair and eye coloration [ 93 ].
In fact, little variation in hair and eye coloration occurs in indigenous populations outside of Europe for hair and outside of Europe, North Africa, the Middle East, Central Asia and South Asia for eyes [ 888994 ]. The lack of variation in hair and eye coloration in Africa has been assumed to be caused by the importance of eumelanin in affording protection, as it does in the case of skin coloration, but this has not been empirically established. Hair and eye coloration appear to have not been under as strong natural selection as skin coloration, and loss of genetic variation at one or more population bottlenecks probably contributed to the patterns of phenotypic variation observed in the hair and irises of modern people [ 95 ].
No pigmentation meaning
Scalp hair in most non-European populations is very dark brown, with little phenotypic variation [ 96 ]. Many genes appear to contribute to the dark brown hair colour phenotype [ 8893 ], and the relative importance of different loci is not yet known. The relatively high prevalence of blond hair in Northern Island Melanesia has been traced to the 93C allele of the TYRP1 gene [ 9798 ], which has been dispersed throughout the region in the course of human colonization of the Southwest Pacific.
In Europe, blond hair has been traced to establishment of variation in a regulatory enhancer of the KITLG gene, while red hair is produced by a specific range of variants of the MC1R locus [ 99 — ]. Sexual selection is thought to have influenced the high prevalence of blond- and red-hair phenotypes in Europe [ 93 ], but this has not been established empirically.
The nature and coloration of human male facial hair—beards and moustaches—have been a matter of curiosity and speculation, but little formal research [ 16, ].
Male facial hair, manifested as moustaches, cheek hair whiskers and beards, occurs in some male primates and appears to represent secondary sexual characteristics that evolved as amplified visual signals of rank, dominance and attractiveness [ 8].
This supports claims that age-related changes in human beard and moustache coverage and colour on the male face serve as honest signals of age or social dominance [ ], and that they evolved as products of contest competition between males [ ].
Beards augment the effectiveness of human aggressive facial displays, but are rated as ambivalent or unattractive by females .
Until very recently, studies of human iris coloration focused primarily on European populations, where the greatest range and variety of eye colours—from dark brown to pale blue—are found. Iris colour phenotypes are determined by amounts of melanin and by the ratio of eumelanin to phaeomelanin in the iris, with brown eyes having a higher ratio than light eyes [ 8889 ]. Other categorical eye colours, such as blue, green and hazel, are common in Europe and parts of the Middle East, and Central and South Asia, with Europeans having the lightest eye colours [ 88 ].
The sets of genetic markers associated with variation in iris coloration in Europe, South Asia and East Asia are distinct, downtown cincinnati carriage rides free relatively little is known of the combination of evolutionary forces—including natural and sexual selection—that influenced their distribution [ 89 ]. Dark iris coloration is associated with less scattering of intraocular light, a trait that may be protective under conditions of bright sunlight and high UVR.
Blue eye coloration, on the other hand, is associated with greater intraocular light scattering and a higher level of melatonin suppression, traits that may have been adaptive under highly seasonal sunshine regimes in northwestern Eurasia [ ]. Blue-eyed women have been found to be preferred by blue-eyed men, possibly as a manifestation of a male adaptation for the detection of extra-pair paternity based on eye colour, as a phenotypically based assurance of paternity [ ].
Arguments for the action of natural and sexual selection on iris colour need to be examined with great care as more data on the genetic basis of the trait are revealed. A recent study showing that the genetic markers associated with iris coloration are also associated with skin and hair pigmentation traits suggests that iris coloration was a pleitropic effect associated with selection on pigmentation genes whose primary effect was skin or hair pigmentation, not iris coloration [ 89 ].
The genetic basis of human coloration is complex because some genetic variants affect all pigmentary systems—skin, hair and eyes—through pleiotropic effects, while others affect only one type [ ] and because different genes and gene combinations can create similar coloration phenotypes. Despite the technical difficulties of such studies, the fascination of humans with their own coloration phenotypes will certainly continue to propel research forward quickly.
Skin, hair and eye coloration in humans is variable, and has been influenced by different combinations of evolutionary forces. Skin coloration has been strongly influenced by natural selection, globally and throughout human prehistory, because of the importance of melanin as a natural sunscreen on naked skin. The role of natural selection in the evolution of hair and eye coloration appears to have been negligible, but genetic bottlenecks followed by sexual selection may have played more significant roles in establishing the patterns of variation recognized outside of Africa.
In recent centuries, humans have migrated faster and over longer distances than during any time in prehistory. Many of these movements have brought people into regions with markedly different solar regimes than their homelands. Many people now live under levels of solar radiation that are much stronger, or much weaker and more seasonal, than those under which their ancestors evolved.
These rapid changes in living circumstances have created significant health problems resulting from too much UVR exposure skin cancer, accelerated ageing of the skin and from too little UVR exposure vitamin D deficiency and its many sequelae that have greatly impacted individual well-being and public health.
Mitigating these problems is now the focus of considerable attention in many health professions [ — ]. Rapid, long-distance migrations have also brought people together from disparate and widely separated places, creating unprecedented and novel opportunities for gene flow. The twenty-first century world contains a sepia rainbow of human skin colours, created from old and new combinations of skin colour—related genetic markers.
The effects of these new genetic admixtures on health are not known. More significant to health and overall human well-being, however, are the problems of social segregation and behavioural bias that are rooted in cultural constructions of skin colour—based race categories [ 87 ]. Humans are visually oriented primates, and our varied colours are badges of our recently shared evolutionary history.
Our skin colours unite us, not divide us. Tim and two anonymous reviewers provided excellent suggestions for improvement of this contribution. We thank Theresa Wilson of Penn State for providing comprehensive support and assistance to our research programme, including the maintenance of our reference library and preparation of this manuscript. The authors contributed equally to the conception and design of this paper and to the drafting and revising of the article for important intellectual content; they also gave the final approval of the version to be published.
National Center for Biotechnology InformationU. Published online May Nina G. Jablonski and George Chaplin. Author information Article notes Copyright and License information Disclaimer. Accepted Dec 9. This article has been cited by other articles in PMC. Abstract Humans are a colourful species of primate, with human skin, hair and eye coloration having been influenced by a great variety of evolutionary forces throughout prehistory. Keywords: eumelanin, phaeomelanin, ultraviolet radiation, natural selection, sexual selection, genetic drift.
Introduction Discussions of the cardinal features of the human lineage usually focus on bipedalism, relative brain size, language and technology, and ignore the remarkable distinctions of the integument and eyes that have figured importantly in human evolution. Human coloration in context Like most mammals, primates have hair covering most of their bodies. Variation in human skin coloration is mostly a product of natural selection Skin colour as measured by skin reflectance and levels of UVR are highly correlated.
Hair and eye coloration are not under strong natural selection Like skin, the coloration of human hair and eyes is determined primarily by the amount and type of melanin produced and stored in melanosomes [ 8889 ]. Conclusion Skin, hair and eye coloration in humans is variable, and has been influenced by different combinations of evolutionary forces. Authors' contributions The authors contributed equally to the conception and design of this paper and to the drafting and revising of the article for important intellectual content; they also sdrt regime juridique the final approval of the version to be published.