Relevant bibliographies by topics / Cashmere

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Cashmere'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 February 2022

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Journal articles on the topic "Cashmere"

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Salehi, Mohammed, Masood Asadi-Fozi, Ahmad Mirhadi, and Majid Afshar. "Environmental Factors Affecting Fleece Traits in Raeini Cashmere Goat." Journal of Agricultural and Marine Sciences [JAMS] 15 (January 1, 2010): 15. http://dx.doi.org/10.24200/jams.vol15iss0pp15-19.

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The objective of this study was to evaluate some environmental factors (sex, age and management system) on fibrecharacteristics of Raeini Cashmere goats in Baft stations (BS) and of Raeini Cashmere goats raised in nomadic conditions (NC) as commercial flocks. Fiber samples including cashmere and hair were taken from 150 and 120 Raeini Cashmere goats (aged 1-8 years old) from BS and NC, respectively. The Fleece traits measured included staple length (SL), percentage of cashmere in fleece (C), percentage of guard hair in fleece (H), cashmere's mean fiber diameter (CMFD) and the coefficient of variation of cashmere's fiber diameter (CVFD). Mean SL, C, H, CMFD and CVFD in BS were 6.35 ±0.1 cm, 66.51± 0.72 %, 33.5 ± 0.72 %, 20.19 ±0.11 micron and 19.57± 0.21% and thosein NC were 5.62 ± 0.1 cm, 69.06 ± 0.74 %, 30.94 ±0.74 %, 19.53±0.15 micron and 17.88 ± 0.19 %, respectively. There were significant differences (P<0.05) between the two production management systems for all traits investigated. The value for C was significantly higher in males than females (P<0.05). The results showed that the fleece traits were affected by age. However, the effect of age on these traits was not the same. Significant phenotypic correlations were found between SL and CMFD (0.16) and between SL and CVFD (0.13). The results of this study indicated that the fixed effects of age, sex and management systems as well as the relationship between fleece traits should be considered in the Raeini Cashmere goat breeding programs.
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Yang, Liu, Jian Zhong Yang, and Long Li. "Study on Coiled Fiber Height Distribution of Variable Cashmere Surface." Advanced Materials Research 750-752 (August 2013): 2327–30. http://dx.doi.org/10.4028/www.scientific.net/amr.750-752.2327.

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The study on variable cashmere of pilling is a worldwide problem. The cashmeres pilling performance more complex due to the influence of subjective and objective factors in the environment, nutrition, genetics, rearing methods, and difficulties. Coiled fibers of variable cashmere sweater surface have a certain impact to the cashmere sweater pilling characteristics. The tests showed that the distribution of the coiled fiber height appear a single peak shape. The height of the coiled fiber is generally concentrated in the range of 1.5~1.8mm, and more pronounced decline as the number of fibers altitude increases. Especially in the range of 0~1 mm the more closer to the cashmere sweater surface, more coiled fiber existed. The tests showed that the parts exist in the coiled fibers pilling more serious, while pilling phenomenon appear on fewer parts, less present to quantity of coiled fibers and the height of the coiled fiber. Study on the height distribution of coil fibers is necessary.
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Lin, Hai Tao, Fang Jiang, Hui Su, and Jiwei Huang. "Study on Cashmere Fibers Shrink-Proofing by Enzyme Based on Fuzz Mathematics Method." Advanced Materials Research 236-238 (May 2011): 2830–35. http://dx.doi.org/10.4028/www.scientific.net/amr.236-238.2830.

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Cashmere shrink-proofing effect by enzyme can't achieve ideal shrink-proof effect, so hydrogen peroxide + Savinase protease combined treatment was selected to treat cashmere fiber. In this paper, the included angle cosine method was used to determine the empowerment weight, and used the fuzzy matter-element analysis to fuzzy comprehensive evaluation of the experimental index, the optimum conditions is: hydrogen peroxide pretreatment temperature 35 °C, time 45min, H2O2 40ml / L, pH 9, pyrophosphate 5g / L, the temperature of enzyme treatment 35 °C, time 25min, concentration 40ml / L, pH 9. After cashmere fibers were treated in hydrogen peroxide and Savinase protease combined treatment, cashmere’s Shrink-proofing is well.
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Dörrie, Doris, and Gustav A. Richar. "Cashmere." Chicago Review 43, no. 3 (1997): 24. http://dx.doi.org/10.2307/25304184.

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Faust, Marie-Eve. "Cashmere." International Journal of Retail & Distribution Management 41, no. 11/12 (November 15, 2013): 973–85. http://dx.doi.org/10.1108/ijrdm-05-2013-0117.

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Duan, Chunhui, Jianhai Xu, Yu Zhang, Wei Zhang, Yabo Sun, and Zhihai Jia. "Effects of melatonin implantation on cashmere growth, hormone concentrations and cashmere yield in cashmere-perennial-type Liaoning cashmere goats." Animal Production Science 57, no. 1 (2017): 60. http://dx.doi.org/10.1071/an15183.

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The aim of the present study was to investigate the effects of melatonin implants on cashmere growth, the concentrations of plasma melatonin and prolactin and the total cashmere yield in cashmere-perennial-type Liaoning cashmere goats. Twenty female goats were assigned to two treatments (n = 10) including a control and a treatment in which melatonin (2 mg/kg bodyweight) was implanted in March and May, respectively. The experiment lasted for 153 days. Fibre samples were collected in July, August and April the following year (before cashmere harvest). Blood samples were taken monthly from March to August. Cashmere yield was recorded after harvest. In melatonin-treated goats, cashmere length and cashmere growth rate from April to July were significantly increased (P < 0.05), but no influence was observed (P > 0.05) in August. Implantation of melatonin significantly increased plasma melatonin concentrations (P < 0.05) and decreased prolactin concentrations from April to July compared with the control group (P < 0.05), but no difference was observed in August (P > 0.05). Administration of melatonin increased the cashmere yield by 6.2% and the maximum cashmere length by 8.4%, but the differences were not significant (P > 0.05). Moreover, the cashmere fibre diameter was not influenced by melatonin implantation (P > 0.05). The results also indicated that plasma melatonin concentrations were correlated with plasma prolactin in the regulation of cashmere growth. Implantation of melatonin was an effective way to promote cashmere growth, and administration during the cashmere slow-growing period improved cashmere production without changing cashmere fibre diameter in cashmere-perennial-type Liaoning cashmere goats.
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McGregor, B. A. "Influence of nutrition, fibre diameter and fibre length on the fibre curvature of cashmere." Australian Journal of Experimental Agriculture 43, no. 10 (2003): 1199. http://dx.doi.org/10.1071/ea01178.

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Raw and dehaired Australian and Chinese Liaoning cashmere were evaluated for cashmere fibre curvature, cashmere fibre length, resistance to compression, and mean fibre diameter. Tested cashmere originated from commercial lots, and previous experimental samples. In Australian goats, cashmere fibre curvature was dependent on nutrition. Goats fed to lose weight grew cashmere with significantly (P<0.05) increased fibre curvature compared with goats fed to gain weight (61 v. 47°/mm) but total fibre curvature (fibre curvature × fibre length) was not affected by nutrition treatment. In raw Liaoning cashmere, there was a significant (P<0.001) difference between each age and sex group in fibre curvature (bucks 52; does 65; kid bucks 78°/mm). Increasing Liaoning cashmere staple crimp frequency by 1/cm was correlated with an increase in fibre curvature of 6.5°/mm (r2 = 0.61). In raw and dehaired Australian and Liaoning cashmere, increasing mean fibre diameter and cashmere fibre length was associated with decreasing fibre curvature (for each 3 μm increase in mean fibre diameter fibre curvature declined 10–41°/mm; for each 10 mm increase in cashmere fibre length fibre curvature declined 3–13°/mm). Increasing cashmere mean fibre diameter was positively correlated with dehaired cashmere fibre length (for each 3 μm change in mean fibre diameter there was a change of 7–23 mm in length). In Australian and Liaoning cashmere, the direction of responses to changes in cashmere fibre attributes measured on the fibre curvature was similar. In raw Australian and Liaoning cashmere, increasing the ratio of cashmere fibre length:mean fibre diameter was associated with reduced fibre curvature. It was concluded that the high fibre curvature of Liaoning cashmere may be a consequence of low mean fibre diameter and short fibre length resulting from a production system where goats are relatively poorly fed. The results suggest that for Australian cashmere, only a certain number of crimps are produced. As such, crimp frequency in Australian cashmere is time dependent and not length dependent. Producers can manipulate the fibre curvature attributes of their cashmere by altering cashmere production via nutrition management. Preparation and testing procedures for the selling of raw cashmere and definitions of cashmere may need to be revised to include fibre curvature.
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Duan, Chun-hui, Jian-hai Xu, Yu Zhang, Zhi-hai Jia, and Wei Zhang. "Melatonin and cashmere growth in Inner Mongolian cashmere goats." Canadian Journal of Animal Science 96, no. 2 (June 1, 2016): 108–13. http://dx.doi.org/10.1139/cjas-2015-0018.

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The aim of the study was to investigate the effects of melatonin implants on cashmere growth and productive performance of cashmere goats. A total of thirty female goats were assigned to one of three treatments (n = 10), including control and two treatments where melatonin [2 mg kg−1 body weight (BW)] was implanted either in April and June or in June. Compared with the control, implantation in April and June increased cashmere yield and maximum cashmere length by 20.3% and 15.7%, respectively (P < 0.01), with an average initiation date of 22 May 2013 and cessation date of 26 Mar. 2014. In contrast, no cashmere growth was observed in control goats until 19 June 2013 and the growth ceased on 3 Apr. 2014. Melatonin only implanted in June had no effect on cashmere yield and maximum cashmere length, with an average initiation date of 5 June 2013 and cessation date of 27 Mar. 2014. Cashmere growth rate, cashmere fiber diameter, the final BW, and average daily gain were not influenced by melatonin implantation. Results suggested that melatonin implantation during the cashmere nongrowing period is an effective way to stimulate cashmere growth and extend the cashmere growth phase with April and June identified as the most appropriate time for implantation.
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Celi, Raffaele, Francesco Toteda, Anna Maria Facciolongo, Antonia Zarrilli, and Giuseppe Marsico. "Cashmere production from Scottish Cashmere kids and crossbreed Scottish Cashmere x Jonica kids." Italian Journal of Animal Science 8, no. 4 (January 2009): 647–62. http://dx.doi.org/10.4081/ijas.2009.647.

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Rafat, S. A., D. Shodja, and H. Karimi. "The effects of nutrition and age on characteristics of fibers Raeini Cashmere goat." Proceedings of the British Society of Animal Science 2003 (2003): 189. http://dx.doi.org/10.1017/s175275620001348x.

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Traditionally goats are indeed important in Iran especially for milk and fibers. This country has nearly 5000000 cashmere producing goat, which produce approximately 1500 metric ton of raw cashmere. So research on environmental factors which have effect on cashmere production, is very vital to economy of the country. Raeini breed is the most productive Cashmere goat in Iran. However, There are no detailed descriptions of the effects of nutrition on cashmere characteristics in Raeini goat. There is some debate on the effects of nutrition on cashmere growth. In some studies cashmere growth does not respond to increased feed intake above maintenance. While some reviewers have concluded that nutrition does influence cashmere growth (McGregor, 1998). The objective of this study was to describe the effects of feeding level on the cashmere growth of Raeini female goats at two different ages.
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Dissertations / Theses on the topic "Cashmere"

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Hillbrick, Gordon Colin, and kimg@deakin edu au. "THE LIPID COMPOSITION OF CASHMERE GOAT FIBRES." Deakin University, 1994. http://tux.lib.deakin.edu.au./adt-VDU/public/adt-VDU20031205.162817.

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This study examined the differences in the chemical composition, particularly fatty acids, of the lipid extracted from the fibre of bucks, does and castrated goats. The study provides a more detailed understanding of the chemical composition of buck fibre lipid and how it varies throughout the year, and also details the effect of body region and nutrition on the production and chemical composition of lipid from buck fibre. Lipid was extracted with either petroleum ether (non-polar) or chloroform/methanol azeotrope (polar) and analysed by gas chromatography and gas chromatography-mass spectrometry. The more polar solvent system extracted larger amounts of lipid and more of each individual fatty acid. The following buck specific ethyl branched fatty acids were identified: 2-ethylhexanoic, 4-ethylhexanoic, 2-ethyloctanoic, 4-ethyloctanoic, 6-ethyloctanoic, 2-ethyldecanoic, 4-ethyldecanoic, 2-ethyldodecanoic, 6-ethyldodecanoic, 4-ethyldodecanoic, 2-ethyltetradecanoic, 6-ethyltetradecanoic, 4-ethyltetradecanoic, 2-ethylhexadecanoic and 4-ethyloctadecanoic acids. Of these buck specific fatty acids only 4-ethylhexanoic (T), 4-ethyloctanoic, 4-ethyldecanoic, 4-ethyldodecanoic, 6-ethyldodecanoic (T), 4-ethyltetradecanoic, 2-ethylhexadecanoic (T) and 4-ethylhexadecanoic acids have been previously identified or tentatively identified (T) in buck fibre extracts. This shows that the chemical composition of buck fibre lipid is more complex than previously reported, and that it may be more difficult than previously thought to artificially duplicate the odour of the buck. Buck fibre samples had lower average concentrations of 2-methylpropanoic, 2-methylbutanoic, iso-pentadecanoic, anteiso-pentadecanoic, iso-hexadecanoic, anteiso-heptadecanoic, iso-octadecanoic and anteiso-nonadecanoic acids as compared with fibre samples from does, spayed does, or wethers that were castrated at one month of age. The reduced concentrations of these fatty acids in buck fibre extracts were likely to be due to the synthesis of ethyl branched derivatives of iso and anteiso fatty acids. Buck fibre samples had higher concentrations of benzoic acid as compared with fibre samples from does, spayed does, or wethers that were castrated at one month of age. The significance of these results is that non buck specific fatty acids may also make a contribution to the odour of bucks. When fibre samples were collected at various times throughout the year, it was found that the bucks had increased amounts of lipid and ethyl branched fatty acids in fibre samples shorn from March to September, as compared with fibre samples shorn in November and January. The increase in the amount of lipid and ethyl branched fatty acids corresponded with both the rutting period of the buck and the period when the buck odour was increased. This suggests that ethyl branched fatty acids could be pheromones. The variation in lipid content and fatty acid composition was also examined between fibre samples collected from different body regions of the buck during April, as alterations in sebaceous gland activity around the neck during rutting have been reported. It was found that the average amount of lipid in the neck region of the bucks was not statistically higher than the average amounts in the midside and hind regions. However, the ethyl branched fatty acid concentrations were statistically higher in the fibre from around the neck as compared with the fibre from the other body regions, which is consistent with the odour of the buck being most pronounced around the head and neck region. The lipid content and composition of fibre samples from bucks fed high and low quality diets (lucerne and pangola grass, respectively) was examined to determine the effect of nutrition on buck specific components. The high quality diet increased the amount of lipid and ethyl branched fatty acids in fibre samples collected in April from the neck, midside and hind regions, as compared with fibre samples from the corresponding body regions from bucks fed the low quality diet. Thus it may be possible for the pheromone levels of bucks to be increased by simply providing them with good nutrition. The lipid content and ethyl branched fatty acid concentrations of fibre samples increased earlier in the year for the lucerne fed bucks as compared with the pangola grass fed bucks. The lucerne fed bucks had increased concentrations of ethyl branched fatty acids in fibre samples shorn during December to June (6 months) whereas the pangola grass fed bucks had increased concentrations of ethyl branched fatty acids in fibre samples shorn during April to August (4 months). These observations show that good nutrition can result in both the earlier production of ethyl branched fatty acids and an extended period when ethyl branched fatty acids are produced. This suggests that nutrition can be used to manipulate pheromone levels in the buck. The period when the ethyl branched fatty acids were increased corresponded with the period when the plasma luteinizing hormone (LH) and testosterone concentrations, odour and sebaceous gland volume of the bucks were increased, which supports the assumption that ethyl branched fatty acids are involved in odour production and act as pheromones.
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Dimassi, Ossama Khalil. "Yield, composition and processability of Dahlem cashmere goats' milk." Beuren Stuttgart Grauer, 2005. http://d-nb.info/989886174/04.

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Choudhury, Suchitra. "Textile orientalisms : cashmere and paisley shawls in British literature." Thesis, University of Glasgow, 2013. http://theses.gla.ac.uk/5201/.

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Britain imported a vast number of cashmere shawls from the Indian subcontinent in the eighteenth and nineteenth centuries. These were largely male garments in India at the time, which became popular dress accessories for British women. The demand for these shawls was opportune for textile manufacturers at home – particularly in Edinburgh, Norwich, and Paisley, who launched a thriving industry of shawls, ‘made in imitation of the Indian’. There has been considerable scholarship on cashmere shawls and their European copies in textile history. However, it has enjoyed no such prominence in literary studies. This PhD thesis examines Cashmere and ‘Paisley’ shawls in works of literature. Indian shawls are mentioned in a number of literary texts, including plays, poems, novels, opera, and satire. A wide variety of writers such as Richard Sheridan, Sir Walter Scott, Jane Austen, and Wilkie Collins (to name a few) depict these textiles in their works. For these writers, I argue, shawls provide a means to explore Britain’s changing social and imperial identity through the prism of material culture. The sheer incidence of ‘shawls’ in printed discourse furthermore suggests that they went beyond the realm of everyday fashion to constitute one of the important narratives of nineteenth-century Britain. In emphasising the significance of material culture and recovering new historical contexts, this investigation raises important questions relating to the links between industry and trade, and literary production. I rely on literary criticism, scholarship on India, and textile history to examine the phenomenon of cashmere shawls. In the wider context of postcolonialism, the research suggests that instead of the Saidian model which viewed the East as an abject ‘Other,’ colonies actually exerted a reverse and important influence on the imperial centre. A new emphasis on Indian things in literature, this work hopes, will contribute a fresh strand of thought to studies of imperialism.
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Mansell, Jeremy. "Draft forest management plan for Cashmere Forest, Port Hills, Canterbury." Connect to this title online, 2006. http://library.canterbury.ac.nz/etd/adt-NZCU20070420.100644.

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Mansell, Jeremy David. "Draft forest management plan for Cashmere Forest, Port Hills, Canterbury." Thesis, University of Canterbury. Forestry, 2007. http://hdl.handle.net/10092/1151.

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Cashmere Forest is currently a production forest comprised of mostly radiata pine (c.85%), Douglas fir (c.5%) and some non plantation areas. The Port Hills Park Trust Board (PHPTB) is interested in purchasing Cashmere Forest for the purpose of creating a public forest park environment where forestry, indigenous biodiversity, recreation and the environment are goals of sustainable management. For this purpose this draft forest management (DFM) plan has been prepared. The preparation of the Cashmere DFM plan comprised three main components: 1. An economic analysis of the current plantation component of Cashmere Forest. 2. Preparation of a draft forest management plan which encompasses the management of plantation and non plantation areas. 3. Preparation of a geographic information system (GIS) for Cashmere Forest. Economic analysis evaluated clearfell, coupe (2 to 5 ha), and a mixture of coupe and continuous canopy management (CCM) as harvesting scenarios. The coupe CCM mix was recommended for implementation primarily as it best suited long term management goals for Cashmere Forest Park while also returning modest value (NPV $561, 966). Normal cashflow analysis was also used to analyse cashflow over the first thirty years of operation from 2007. Under coupe/CCM, accrued profit does not become permanently positive until around 2019 due to initial infrastructure costs. Accrued revenue culminates at around 4 million after 30 years. This figure may drop following implementation of high pruning, alternative growth models and indigenous restoration. The Cashmere DFM plan begins with the 200 year vision which sees a Forest Park ecosystem that achieves production, environmental, ecological and recreational goals appropriate to its Port Hills location. Production forestry is practiced through the selective harvesting of a range of naturally regenerated exotic and restored indigenous species. Landscape, soil and water resources are sustainably managed through the retention of a mixed forest canopy. The forest park has been significantly augmented with indigenous flora and fauna typical of the Port Hills and ecologically significant areas are managed specifically for their indigenous biodiversity. Park recreational users are enjoying ongoing utilisation of a unique Canterbury landscape. Plantation forest management involves coupes of between 2 to 5 ha which will be harvested with cable or ground based systems with areas split approximately 50:50 between the two. Cable harvesting will be carried out with a swing yarder system with ground based operations carried out with track skidders. CCM will be carried out on a trial basis in three compartments. Re-establishment of plantation areas will aim towards occupying around 58% of Cashmere Forest, comprised of areas of radiate pine 65%, radiata pine/eucalypt 24%, Douglas fir/eucalypt 5% and Alternative species 6%. Non plantation areas are identified as either bluff, track or clearing. Within each area there may be one or more vegetation type including tussock grassland, mixed shrubland, rock association and any mixture of the three. It is proposed that the non plantation area will eventually increase to include riparian buffers 31%, restored native 55%, bluff 10% and track 4% areas, reflecting the long term vision of increased native areas in Cashmere Forest. Monitoring of forest operations, restoration, recreation and management progress will be integral to the successful implementation of the Cashmere DFM plan. A database of information will be created to allow periodical reviews of processes and predictions and reconciliation of costs and revenues associated with the management of Cashmere Forest. Periodical reviews will also be undertaken by an independent management advisory group who can liaise with the project manager of Cashmere Forest Park to discuss issues and aid planning and ensure the successful establishment of this unique park resource.
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Keva, Sandiswa. "Qualitative and quantitative characteristics of cashmere produced by South African indigenous goats." Diss., Pretoria : [s.n.], 2004. http://upetd.up.ac.za/thesis/available/etd-03132006-102937.

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Thesis (M.Sc.(Agric.))(Animal Science)--University of Pretoria, 2004.
Title from opening screen (viewed March 27, 2006). Includes summaries in English and Afrikaans. Includes bibliographical references.
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Villar, David. "Hormonal regulation of the fibre growth and moult cycle in cashmere goats." Thesis, University of Aberdeen, 1998. http://digitool.abdn.ac.uk/R?func=search-advanced-go&find_code1=WSN&request1=AAIU106170.

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The role of selected hormones in the control of hair follicle activity, fibre growth and moult in cashmere goats was investigated by manipulation of prolactin (PRL), thyroid hormones, and growth hormone (GH) individually or in combination. In experiment 1, the effect of different doses of the anti-thyroid drug "propylthiouracil" (PTU), on thyroxine (T4) and triiodothyronine (T3) profiles and deiodinase enzyme activities in liver, kidney and skin tissues was determined. Types II and III deiodinase enzymes were found to be present in goat skin but not type I. It was concluded that the supply of T3 within the skin was partly independent of circulating hormone profiles. In experiment 2, goats were treated with PTU, triiodothyronine (T3) and bromocriptine (Br) to decrease T3 availability to tissues and circulating PRL concentrations, respectively. Treatment with Br delayed the spring rise in plasma PRL concentrations (P=0.06) and primary (P<0.05) hair follicle activity, and delayed moult onset (P<0.01). PTU treatment did not significantly affect hair follicle activity but generally delayed the time of moult onset (P<0.05). The effects of the treatments were not additive, indicating that the actions of the two hormones were not independent. The effects of PTU and Br treatments were not exerted through changes in IGF-I binding activity in the skin, but binding was greater (P<0.01) in April than November. In experiment 3, treatment with bovine somatotropin (bST), T4 or metoclopramide to increase circulating concentrations of GH, T4 or PRL, failed to prolong the period of anagen in hair follicles, but bST increased fibre growth rate (P<0.05) and this was associated with higher circulating IGF-I concentrations. It is concluded that manipulation of the cycle of the cashmere-producing hair follicle is unlikely to be achieved through manipulation of circulating hormone concentrations alone and that much regulation of hair follicle activity occurs within the skin itself, possibly through changes in enzymes that control the supply of T3 to the follicles, in hormone receptor activity, and in the rate of synthesis of IGF-I and other growth factors within the skin.
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Tahmasbi, Abdol Mansour. "Role of biotin in the regulation of ovine and caprine hair follicle activity." Thesis, University of Aberdeen, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.327426.

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Henderson, Marilyn. "Some aspects of the production of cashmere fibre from nonselected Australian feral goats." Title page, contents and forward only, 1990. http://web4.library.adelaide.edu.au/theses/09PH/09phh497.pdf.

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Includes bibliographical references (leaves 246-280) and index. Deals with the domestication of the goat and the history of the cashmere industry; investigates fibre physiology and production in general; and gives a detailed account of skin histology and fibre production of goats with particular reference to the cashmere-bearing animal; followed by research related to cashmere fibre production
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Gunchinmaa, Tumur. "Institutions and transactions costs : the role of information in cashmere marketing in Mongolia." Thesis, University of Manchester, 2006. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.556580.

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Books on the topic "Cashmere"

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Comfort, Barbara. The Cashmere Kid. Woodstock, Vt: Foul Play Press, 1993.

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Goldenbaum, Sally. Death By Cashmere. New York: Penguin Group (USA), Inc., 2008.

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Massimo, Listri, ed. The Cashmere shawl. London: Dryad, 1987.

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The cashmere shawl. New York: Abrams, 1988.

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d'Asie, Association pour l'étude et la documentation des textiles. Quelques aspects du châle cachemire. Paris, France: A.E.D.T.A., 1987.

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Lévi-Strauss, Monique. The romance of the cashmere shawl. Ahmedabad: Mapin Pub., 1987.

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Levi-Strauss, Monique. The Romance of the cashmere shawl. Ahmedabad, New York: Mapin, 1987.

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Death by cashmere: A seaside knitters mystery. New York: Obsidian, 2008.

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Death by cashmere: A seaside knitters mystery. Thorndike, Me: Center Point Pub., 2009.

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Pashmina. New Delhi: Roli Books, 2003.

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Book chapters on the topic "Cashmere"

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Gooch, Jan W. "Cashmere." In Encyclopedic Dictionary of Polymers, 122. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-6247-8_2008.

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Gu, Qingliang, and Bin Shen. "Cashmere Value Chain in China." In Fashion Supply Chain Management in Asia: Concepts, Models, and Cases, 63–70. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-2294-5_4.

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Ishrat, Sheikh I., Nigel P. Grigg, Nihal Jayamaha, and Venkateswarlu Pulakanam. "Cashmere Industry: Value Chains and Sustainability." In Sustainability in Luxury Fashion Business, 113–32. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-8878-0_7.

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Wang, Fei, Xiangyu Jin, and Wei Luo. "Intelligent Cashmere/Wool Classification with Convolutional Neural Network." In Artificial Intelligence on Fashion and Textiles, 17–25. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-99695-0_3.

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Waldron, Scott A., Colin A. Brown, and Adam M. Komarek. "Growth, Globalization and Upgrading of the Chinese Cashmere Industry." In The Political Economy of Agro-Food Markets in China, 257–78. London: Palgrave Macmillan UK, 2014. http://dx.doi.org/10.1057/9781137277954_11.

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Yang, Yunhui, and Yiping Ji. "Application of Cashmere and Wool Drawing Machine by Using PLC." In Future Control and Automation, 127–31. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-31003-4_16.

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Walter, Franz. "Cashmere statt Cord. Von der jugendlichen Radikaldemokratie zum juvenilen Neuliberalismus." In Die 1980er Jahre, 35–46. Göttingen: Vandenhoeck & Ruprecht, 2014. http://dx.doi.org/10.13109/9783666800061.35.

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Shuyuan, Shang, Yi Haiyan, Wang Zhihong, and Liu Yaxia. "Analysis Method Based of Digital Image of Wool or Cashmere." In Recent Advances in Computer Science and Information Engineering, 293–98. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-25781-0_44.

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Shien, Li, and Shang Shuyuan. "Computer Automatic Measurement of Outside Square Factor of Cashmere Fiber Scales." In Recent Advances in Computer Science and Information Engineering, 491–96. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-25792-6_74.

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Guo, Fei, Shuyuan Shang, and Ming Qi. "Study of Detection Method of Cashmere and Wool Based on Near Infrared Spectroscopy and Elman Neural Network." In Artificial Intelligence and Computational Intelligence, 362–69. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-23896-3_44.

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Conference papers on the topic "Cashmere"

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Stets, Robert, Sandhya Dwarkadas, Nikolaos Hardavellas, Galen Hunt, Leonidas Kontothanassis, Srinivasan Parthasarathy, and Michael Scott. "Cashmere-2L." In the sixteenth ACM symposium. New York, New York, USA: ACM Press, 1997. http://dx.doi.org/10.1145/268998.266675.

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Hijma, Pieter, Ceriel J. H. Jacobs, Rob V. Van Nieuwpoort, and Henri E. Bal. "Cashmere: Heterogeneous Many-Core Computing." In 2015 IEEE International Parallel and Distributed Processing Symposium (IPDPS). IEEE, 2015. http://dx.doi.org/10.1109/ipdps.2015.38.

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Martin, Paul. "The "casual cashmere diaper bag"." In Interactive Spoken Dialog Systems. Morristown, NJ, USA: Association for Computational Linguistics, 1997. http://dx.doi.org/10.3115/1641462.1641475.

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Shaojun Huang, Yiping Ji, and Yunhui Yang. "Computer image recognition in detecting wool and cashmere fibers." In 2012 First National Conference for Engineering Sciences (FNCES). IEEE, 2012. http://dx.doi.org/10.1109/nces.2012.6543426.

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Huang, Shaojun, Yiping Ji, and Yunhui Yang. "Computer Image Recognition in Detecting Wool and Cashmere Fibers." In 2013 Conference on Education Technology and Management Science. Paris, France: Atlantis Press, 2013. http://dx.doi.org/10.2991/icetms.2013.389.

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Su, Zhenwei, Abbas A. Dehghani, Liwei Zhang, Tim King, and Barry Greenwood. "Vision system for auto-detection of cashmere pigmented fibers." In Electronic Imaging 2003, edited by Martin A. Hunt and Jeffery R. Price. SPIE, 2003. http://dx.doi.org/10.1117/12.474033.

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Wu, Guifang, and Yong He. "Identification of fine wool and cashmere by Vis/NIR spectroscopy technology." In International Symposium on Photoelectronic Detection and Imaging: Technology and Applications 2007, edited by Liwei Zhou. SPIE, 2007. http://dx.doi.org/10.1117/12.791231.

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Liu, Yaxia, Shuyuan Shang, Fei Guo, and Haiyan Yi. "Research on the edge detection of the cashmere and wool fibre images." In Instruments (ICEMI). IEEE, 2009. http://dx.doi.org/10.1109/icemi.2009.5274040.

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Ishrat, Sheikh Imran, Nigel Peter Grigg, Venkat Pulakanam, and Nihal Jayamaha. "The Role and Significance of Geographical Indication for Sustainability of Cashmere Industry." In 2019 8th International Conference on Industrial Technology and Management (ICITM). IEEE, 2019. http://dx.doi.org/10.1109/icitm.2019.8710672.

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Wang, Huan. "Combining the Hough Transform with MLP for Identifying Cashmere and Wool Fibers." In ICCTA 2019: 2019 5th International Conference on Computer and Technology Applications. New York, NY, USA: ACM, 2019. http://dx.doi.org/10.1145/3323933.3324093.

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