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Journal articles on the topic 'The queen of the Himalayas'

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Author: Grafiati
Published: 18 May 2024

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1

Raina, Rifat H., Malkiat S. Saini, and Zakir H. Khan. "Taxonomy and food plants of Bombus simillimus SMITH (Hymenoptera: Apidae) from the Indian Himalaya." Polish Journal of Entomology / Polskie Pismo Entomologiczne 82, no. 1 (March 1, 2013): 35–47. http://dx.doi.org/10.2478/v10200-012-0021-z.

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Abstract Bombus simillimus SMITH is a west Himalayan species, known only from Pakistan and India. In the Indian Himalaya this species is restricted to Kashmir, Himachal Pradesh and Uttarakhand. So far, it has never been recorded from other regions. Its females (workers) can be recognized by the chocolate brown pubescence of the metasomal terga 1 and 2. The colour pattern of the queen is very distinct, with the whole body coloured black except for the last two metasomal terga, which are brick-red. In Kashmir Himalaya it is widespread around the lower mountain coniferous forest and was found foraging heavily on Trifolium pratense, Lavatera cashmeriana, Carduus spp. and Cirsium spp. Being very common and having a very wide distributional range, it is associated with a sizeable number of host plants. Due emphasis has been laid on its detailed taxonomic descriptions, synonymy, host plants, distribution pattern and illustration. Thirty-five food plants of this species have been recorded from the study areas.
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2

Stoneham, Anne E., Jennifer Graham, Elizabeth A. Rozanski, and John Edward Rush. "Pregnancy-Associated Congestive Heart Failure in a Cat." Journal of the American Animal Hospital Association 42, no. 6 (November 1, 2006): 457–61. http://dx.doi.org/10.5326/0420457.

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A 4-year-old, late-term pregnant Himalayan queen was diagnosed with biventricular congestive heart failure characterized by pleural effusion and pulmonary edema. A cesarean section was performed, resulting in the birth of four live kittens, with one surviving to discharge. Congestive heart failure resolved rapidly following surgery. The queen remained asymptomatic for 9 years postoperatively. Volume expansion secondary to pregnancy was thought to result in cardiovascular volume overload and subsequent congestive heart failure.
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3

RADCHENKO, ALEXANDER, and GRAHAM W. ELMES. "Myrmica afghanica (Hymenoptera: Formicidae), a new ant species from Afghanistan." Zootaxa 375, no. 1 (December 4, 2003): 1. http://dx.doi.org/10.11646/zootaxa.375.1.1.

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Myrmica afghanica sp. nov. is described and its taxonomic position is discussed in relation to the unique Myrmica fauna of the Himalayan region. The type specimens were taken in Afghanistan, north of Jäläläbad, in 1948. Based on three workers and a queen, it is most similar to the species of the rubra-group.
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4

Thakur, Kushal, Pathma Jayakumar, and Bhushan Laxman Sonawane. "In vitro Studies on the Biology and Predatory Potential of Commonly Occurring Ant Species in a Selected Agro-ecosystem of the Himalayan Range, India." Sociobiology 70, no. 2 (June 15, 2023): e7698. http://dx.doi.org/10.13102/sociobiology.v70i2.7698.

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Four commonly occurring species of queen ants were collected after their nuptial flight from an agroecosystem in Lehri Sarail village of Himachal Pradesh (31°32’03.9”N 76°38’57.7“E) using light traps. Queens named HAC1, HAC2, HAC3, and HAC4 were placed individually in a test tube with water sources. Once the queen started laying eggs, and a few workers emerged, they were transferred to an artificial formicarium. HAC1 and HAC2 were identified as Camponotus compressus, while HAC3 and HAC4 were identified as Polyrhachis thompsoni and Pheidole minor, respectively. In the study period of one year between July 2020 and July 2021, offspring from all colonies were found to be workers. HAC1, HAC2, and HAC4 produced dimorphic workers, the majors and minors. Studies on colony establishment, biology, and behavior were carried out with colonies from HAC1, HAC2, and HAC3, while a colony from HAC4 failed to establish. All species showed similar types of colony founding, nesting, brood management, necrophorosis, and hibernation. C. compressus showed higher fecundity, while percent hatchability was higher in P. thompsoni. Percent pupation and adult emergence were higher in C. compressus and lower in P. thompsoni. P. thompsoni was observed to be more aggressive with a high predation rate, followed by C. compressus. P. minor showed aggressiveness initially but was unable to incapacitate the host larva. Understanding ant biodiversity, biology, behavior, predatory potential, etc., will allow us to use the native ants in the agroecosystem as biological control agents. Methods of rearing ants under the artificial setup described here enable laboratory culturing of ants with biocontrol potential and using ants as model organisms to study the bio-efficacy of agrochemicals and pharmaceutical drugs.
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5

Bharti, Himender, Irfan Gul, and Sishal Sasi. "Taxonomy of Temnothorax simlensis stat. nov. (Hymenoptera: Formicidae) with first description of sexual castes along with a mention of its plesiobiotic association with Himalayan species of genus Myrmica." Sociobiology 63, no. 2 (July 20, 2016): 748. http://dx.doi.org/10.13102/sociobiology.v63i2.869.

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The subspecies Temnothorax rothneyi simlensis (Forel) is raised to species rank as Temnothorax simlensis stat. nov. All three castes are recorded, with the queen and male castes described for the first time. This revision is based on the comparative data from morphometry, descriptions, digital images and distribution. In addition, we provide first-hand information about the plesiobiotic association of this species with Himalayan species of genus Myrmica. A revised key to the worker caste of known Indian species of Temnothorax is also provided.
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6

Raina, Rifat H., Malkiat S. Saini, and Zakir H. Khan. "Taxonomy and ecology of Bombus pyrosoma MORAWITZ (Hymenoptera: Apidae) from the North-west Indian Himalaya." Polish Journal of Entomology / Polskie Pismo Entomologiczne 82, no. 2 (June 1, 2013): 95–108. http://dx.doi.org/10.2478/v10200-012-0026-7.

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Abstract Bombus pyrosoma MORAWITZ is an Oriental species. In the Indian Himalaya it is widely distributed in Kashmir, Himachal Pradesh, Uttarakhand and Sikkim with a long seasonal activity period. Queens and males were examined from the Kashmir Himalaya during June, August and September with altitudinal distribution ranges from 2300 to 4200 m. The species is abundant from 3000 to 4000 m in the Kashmir Himalayan belt and was found foraging on large wild flowers in open areas of the mountains. It has a preference for some species of Lamiaceae, as well as Taraxacum officinale and Cirsium spp. (Asteraceae), and Trifolium spp. (Fabaceae). The queens are very large, whereas males are medium-sized. Both have very different colour patterns. Due emphasis has been laid on its thorough taxonomic descriptions, food plants, synonymy, distribution pattern and illustration.
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7

Saini, M. S., R. H. Raina, and Z. H. Khan. "Species Diversity of Bumblebees (Hymenoptera: Apidae) from Different Mountain Regions of Kashmir Himalayas." Journal of Scientific Research 4, no. 1 (December 26, 2011): 263. http://dx.doi.org/10.3329/jsr.v4i1.8815.

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The species diversity of bumblebees was investigated in three provinces Jammu, Kashmir and Ladakh during 2007-2010. Bumblebee queens, workers and males were collected right from the commencement till to the end of flowering stage in all the three mountain regions. In total, 27 species of bumblebees were collected and identified, of which eleven species were common in the two regions, e.g., Kashmir and Ladakh. A list of species assemblages and abundance is provided in each of the mountain ranges. Species diversity of three regions was determined with Shannon-Weiner diversity index and evenness was calculated with indices of Pielou. The obtained results showed species diversity; evenness and species richness were more observable in Kashmir compared with Ladakh and Jammu. The three sample sites within the Kashmir Himalayas indicate significant differences in species diversity; the Kashmir region had higher species diversity and richness than the other regions. Most species of bumblebees were collected in altitudinal ranges of 3000-4000m. Four species viz. Bombus cornutus, B. parthenius, B. miniatus and B. morawitizianus are recorded for the first time from this region, while B. morawitizianus turn out to be the first record to the national list.Key words: Species Diversity; Bumblebees; Kashmir Himalayas.© 2012 JSR Publications. ISSN: 2070-0237 (Print); 2070-0245 (Online). All rights reserved.doi: http://dx.doi.org/10.3329/jsr.v4i1.8815J. Sci. Res. 4 (1), 263-272 (2012)
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8

Saini, Malkiat S., Rifat H. Raina, and Zakir H. Khan. "Taxonomy and pollination ecology of Bombus rufofasciatus (Hymenoptera: Apidae) from the Indian Himalaya." Polish Journal of Entomology / Polskie Pismo Entomologiczne 81, no. 4 (December 1, 2012): 347–63. http://dx.doi.org/10.2478/v10200-012-0015-x.

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ABSTRACT Bombus rufofasciatus SMITH is a Tibetan species, widely distributed in the Oriental region. It is a medium tongued species abundant in both the north-east and north-west Indian Himalaya, covering an altitude range from 2400 to 4200 m. Because of its abundance and very wide distribution, it is associated with a sizeable number of host plants. Males and workers are similar in colour pattern, but the queen is a little different. The species shows a preference for highaltitude mountain slopes and is found in abundance in the open meadows of Affarwatt, Sheeshnag, Daksum, the Razdan Pass and the Lahul-spiti Valley of Himachal Pradesh in the north-western Himalaya. For preference it forages on Aconitum spp. (Ranunculaceae), Trifolium spp. (Papilionaceae), Cirsium spp. (Asteraceae) and certain members of Lamiaceae. Due emphasis has been laid on its detailed taxonomic descriptions, synonymy, host plants, pollination ecology, distribution pattern and illustrations. 51 food plants of this species have been recorded for the first time from the areas under study.
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9

MORAN, ARIK. "‘The Rani of Sirmur’ Revisited: Sati and sovereignty in theory and practice." Modern Asian Studies 49, no. 2 (September 17, 2014): 302–35. http://dx.doi.org/10.1017/s0026749x13000401.

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AbstractIn ‘The Rani of Sirmur: An Essay in Reading the Archives’, Gayatri Chakravorty Spivak offered a literary analysis of British records to demonstrate the inextricability of language from the colonial/imperial project's goal of world domination. Honing her arguments on the threat of a Himalayan queen (rani) to ‘become sati’ (i.e. immolate herself), Spivak interpreted the event as representative of the plight of subalterns and of ‘third world women’ in particular. However, a close reading of the records reveals profound discrepancies between Spivak's interpretation and conditions that existed in and around the kingdom at the time. This article contextualizes the rani's story by supplementing archival sources with folk traditions, local histories, and recent research on sati and Rajput women. It shows that the rani was actually an astute ruler, similar to her peers in the West Himalayan elite, and that her threat of suicide resulted from reasons that go beyond an alleged attempt at recovering agency from the dual oppressions of patriarchal indignity and an invasive superpower. The discourses about sati in contemporary texts are also investigated, revealing a considerable overlap in South Asian and European views of sati among Himalayan elites in turn-of-the-nineteenth-century northwest India.
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10

Rathour, Ranju Kumari, Deepak Sakhuja, Arvind Kumar Bhatt, and Ravi Kant Bhatia. "Municipal Wastewater Connection for Water Crisis and Jaundice Outbreaks in Shimla City: Present Findings and Future Solutions." International Journal of Environmental Research and Public Health 19, no. 18 (September 7, 2022): 11266. http://dx.doi.org/10.3390/ijerph191811266.

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The felicitous tourist destination “Hills Queen” and the capital city of Himachal Pradesh, an enticing state in the Himalayan region, are met with water crisis every year and jaundice outbreaks occasionally. In 2016, there was a severe jaundice outbreak in Shimla city. In a contemporaneous investigation, we attempted to trace out the possible reason for these crises in Shimla. Samples were collected month wise from different water-supply sources and their physicochemical and microbial loads were analyzed. The microbiological examination found a totally excessive microbial load (1.064 × 109 cfu/mL on common) throughout the year with a maximum (>1.98 × 1010 cfu/mL) in the wet season and minimum (>3.00 × 107 cfu/mL) in the winter. Biochemical and morphological evaluation confirmed that most of the water resources reported a high number of coliforms and Gram-negative microorganisms due to sewage-water infiltration. These microorganisms in the water are responsible for the liver infection that ultimately causes jaundice. For safe and potable water, infiltration of municipal wastewater must be prevented at any cost. Scientific disposal of wastewater and purification of uncooked water have to be conducted earlier than consumption or use for different domestic functions, to avoid water crises and fetal ailment outbreaks in the near future.
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11

Pradhan, Deparna, Gunja Kumari, and Kalyan Kanti Das. "Production and Problems in Large Cardamom Cultivation in the Sub- Himalayan Region of West Bengal." International Journal of Current Microbiology and Applied Sciences 12, no. 8 (August 10, 2023): 22–29. http://dx.doi.org/10.20546/ijcmas.2023.1208.004.

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Large cardamom (Amomum subulatum), locally known as ‘alaichi’, is commonly referred to as the queen of spices. India happens to be the second largest producer of this age old spice and shares about 37% of its global production. The present study attempts to analyze the financial & economic performance of Large Cardamom cultivation with the help of primary data collected from 60 randomly selected sample farmers from Kalimpong district of West Bengal during 2019-2020. It is cultivated as one of the most important cash crops in the study area. Garrett’s ranking technique is used to identify the major constraints faced during production of large cardamom. Discounted method of financial feasibility analysis explores Benefit-Cost Ratio (BCR) to be 3.01 and Net Present Value (NPV) to be ₹1, 99,929.92 (per ha per annum) at 7 percent discount rate confirming the financial viability and profitability of large cardamom cultivation. It is found that the crop exhibits upward trend in yield with its age and attains the ‘maxima’ at 6th year, in general. The net return is found to be highest between the age group of 4 to 6 years, 6thyear age garden giving the optimum yield and return. Attack of pest and disease is the major problem expressed by majority of the farmers along with other problems. Proper and timely technical guidance & suitable government initiative for development of ‘fore-warning system’, as well as establishment of newer plantation need to be encouraged with feasible assistance from the concerned line department(s).
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12

Clark, Erin M. R., John M. Dole, Alicain S. Carlson, Erin P. Moody, Ingram F. McCall, Frankie L. Fanelli, and William C. Fonteno. "Vase Life of New Cut Flower Cultivars." HortTechnology 20, no. 6 (December 2010): 1016–25. http://dx.doi.org/10.21273/hortsci.20.6.1016.

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Each year a wide variety of new cultivars and species are evaluated in the National Cut Flower Trial Programs administered by North Carolina State University and the Association of Specialty Cut Flower Growers. Stems of promising and productive cultivars from the National Trial Program were pretreated with either a commercial hydrating solution or deionized (DI) water and placed in either a commercial holding solution or DI water. Over 8 years, the vase life of 121 cultivars representing 47 cut flower genera was determined. Although there was cultivar variation within each genus, patterns of postharvest responses have emerged. The largest category, with 53 cultivars, was one in which a holding preservative increased vase life of the following genera and species: acidanthera (Gladiolus murielae), basil (Ocimum basilicum), bee balm (Monarda hybrid), black-eyed susan (Rudbeckia hybrids), campanula (Campanula species), celosia (Celosia argentea), common ninebark (Physocarpus opulifolius), coneflower (Echinacea purpurea), coral bells (Heuchera hybrids), feverfew (Tanacetum parthenium), foxglove (Digitalis purpurea), ladybells (Adenophora hybrid), lisianthus (Eustoma grandiflorum), lobelia (Lobelia hybrids), obedient plant (Physostegia virginiana), ornamental pepper (Capsicum annuum), pincushion flower (Scabiosa atropurpurea), pinkflower (Indigofera amblyantha), seven-sons flower (Heptacodium miconioides), shasta daisy (Leucanthemum superbum), sunflower (Helianthus annuus), snapdragon (Antirrhinum majus), sweet william (Dianthus hybrids), trachelium (Trachelium caeruleum), and zinnia (Zinnia elegans). Hydrating preservatives increased the vase life of four basils, coral bells, and sunflower cultivars. The combined use of hydrator and holding preservatives increased the vase life of three black-eyed susan, seven-sons flower, and sunflower cultivars. Holding preservatives reduced the vase life of 14 cultivars of the following genera and species: ageratum (Ageratum houstonianum), false queen anne's lace (Ammi species), knotweed (Persicaria hybrid), lisianthus, pineapple lily (Eucomis comosa), sneezeweed (Helenium autumnale), yarrow (Achillea millifolium), and zinnia. Hydrating preservatives reduced the vase life of 18 cultivars of the following genera and species: feverfew, lisianthus, ornamental pepper, pineapple lily, seven-sons flower, shasta daisy, sneezeweed, sweet william, sunflower, trachelium, yarrow, and zinnia. The combined use of hydrating and holding preservatives reduced the vase life of 12 cultivars in the following genera and species: false queen anne's lace, feverfew, pincushion flower, sneezeweed, sunflower, trachelium, yarrow, and zinnia. Data for the remaining 50 cultivars were not significant among the treatments; these genera and species included beautyberry (Callicarpa americana), black-eyed susan, blue mist (Caryopteris clandonensis), calendula (Calendula officinalis), campanula, cleome (Cleome hasserliana), common ninebark, dahlia (Dahlia hybrids), delphinium (Delphinium hybrids), flowering peach (Prunus persica forma versicolor), heliopsis (Heliopsis helianthoides), hemp agrimony (Eupatorium cannabinum), himalayan honeysuckle (Leycesteria formosa), hydrangea (Hydrangea paniculata), larkspur (Consolida hybrids), lily of the nile (Agapanthus hybrid), lisianthus, lobelia, ornamental pepper, pineapple lily, scented geranium (Pelargonium hybrid), sunflower, sweet william, and zinnia.
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13

Clark, Erin M. R., John M. Dole, Alicain S. Carlson, Erin P. Moody, Ingram F. McCall, Frankie L. Fanelli, and William C. Fonteno. "Vase Life of New Cut Flower Cultivars." HortTechnology 20, no. 6 (December 2010): 1016–25. http://dx.doi.org/10.21273/horttech.20.6.1016.

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Each year a wide variety of new cultivars and species are evaluated in the National Cut Flower Trial Programs administered by North Carolina State University and the Association of Specialty Cut Flower Growers. Stems of promising and productive cultivars from the National Trial Program were pretreated with either a commercial hydrating solution or deionized (DI) water and placed in either a commercial holding solution or DI water. Over 8 years, the vase life of 121 cultivars representing 47 cut flower genera was determined. Although there was cultivar variation within each genus, patterns of postharvest responses have emerged. The largest category, with 53 cultivars, was one in which a holding preservative increased vase life of the following genera and species: acidanthera (Gladiolus murielae), basil (Ocimum basilicum), bee balm (Monarda hybrid), black-eyed susan (Rudbeckia hybrids), campanula (Campanula species), celosia (Celosia argentea), common ninebark (Physocarpus opulifolius), coneflower (Echinacea purpurea), coral bells (Heuchera hybrids), feverfew (Tanacetum parthenium), foxglove (Digitalis purpurea), ladybells (Adenophora hybrid), lisianthus (Eustoma grandiflorum), lobelia (Lobelia hybrids), obedient plant (Physostegia virginiana), ornamental pepper (Capsicum annuum), pincushion flower (Scabiosa atropurpurea), pinkflower (Indigofera amblyantha), seven-sons flower (Heptacodium miconioides), shasta daisy (Leucanthemum superbum), sunflower (Helianthus annuus), snapdragon (Antirrhinum majus), sweet william (Dianthus hybrids), trachelium (Trachelium caeruleum), and zinnia (Zinnia elegans). Hydrating preservatives increased the vase life of four basils, coral bells, and sunflower cultivars. The combined use of hydrator and holding preservatives increased the vase life of three black-eyed susan, seven-sons flower, and sunflower cultivars. Holding preservatives reduced the vase life of 14 cultivars of the following genera and species: ageratum (Ageratum houstonianum), false queen anne's lace (Ammi species), knotweed (Persicaria hybrid), lisianthus, pineapple lily (Eucomis comosa), sneezeweed (Helenium autumnale), yarrow (Achillea millifolium), and zinnia. Hydrating preservatives reduced the vase life of 18 cultivars of the following genera and species: feverfew, lisianthus, ornamental pepper, pineapple lily, seven-sons flower, shasta daisy, sneezeweed, sweet william, sunflower, trachelium, yarrow, and zinnia. The combined use of hydrating and holding preservatives reduced the vase life of 12 cultivars in the following genera and species: false queen anne's lace, feverfew, pincushion flower, sneezeweed, sunflower, trachelium, yarrow, and zinnia. Data for the remaining 50 cultivars were not significant among the treatments; these genera and species included beautyberry (Callicarpa americana), black-eyed susan, blue mist (Caryopteris clandonensis), calendula (Calendula officinalis), campanula, cleome (Cleome hasserliana), common ninebark, dahlia (Dahlia hybrids), delphinium (Delphinium hybrids), flowering peach (Prunus persica forma versicolor), heliopsis (Heliopsis helianthoides), hemp agrimony (Eupatorium cannabinum), himalayan honeysuckle (Leycesteria formosa), hydrangea (Hydrangea paniculata), larkspur (Consolida hybrids), lily of the nile (Agapanthus hybrid), lisianthus, lobelia, ornamental pepper, pineapple lily, scented geranium (Pelargonium hybrid), sunflower, sweet william, and zinnia.
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14

Bharti, Himender, and Irfan Gul. "First description of the male caste of the Himalayan endemic ant Lasius alienoflavus Bingham, 1903 (Hymenoptera: Formicidae), with re-description of the female and queen castes." Biodiversity Data Journal 2 (August 22, 2014): e1136. http://dx.doi.org/10.3897/bdj.2.e1136.

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15

WINDLEY, BRIAN F. "The Himalayas." Geology Today 1, no. 6 (November 1985): 169–73. http://dx.doi.org/10.1111/j.1365-2451.1985.tb00329.x.

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16

Naumov, Vladimir V. "QUEEN." Theoretical and Applied Linguistics, no. 2 (2017): 126. http://dx.doi.org/10.22250/2410-7190_2017_3_2_126_126.

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17

Hampton, Leah. "Queen." Appalachian Heritage 42, no. 3 (2014): 95–105. http://dx.doi.org/10.1353/aph.2014.0045.

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18

Karamcheti, Indira. "The Shrinking Himalayas." Diaspora: A Journal of Transnational Studies 2, no. 2 (September 1992): 261–76. http://dx.doi.org/10.3138/diaspora.2.2.261.

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Fiji. Singapore. Guyana. Trinidad. Kenya. Uganda. South Africa. Canada. Britain. The United States. The Indian diaspora has placed half-inch Himalayas into mailboxes all over the world. And “home” is no longer a geographical place, but the two-dimensionality of memory and nostalgia.
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19

Bhasin, Veena. "Pastoralists of Himalayas." Journal of Biodiversity 4, no. 2 (December 2013): 83–113. http://dx.doi.org/10.1080/09766901.2013.11884746.

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20

Leach, Barry A., Thomas L. Kelly, and V. Carroll Dunham. "The Hidden Himalayas." Pacific Affairs 61, no. 3 (1988): 543. http://dx.doi.org/10.2307/2760501.

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21

Karamcheti, Indira. "The Shrinking Himalayas." Diaspora: A Journal of Transnational Studies 2, no. 2 (1992): 261–76. http://dx.doi.org/10.1353/dsp.1992.0010.

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22

Gordon, Sophie. "Photographing the Himalayas." History of Photography 30, no. 4 (December 2006): 392–94. http://dx.doi.org/10.1080/03087298.2006.10443494.

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23

Bhasin, Veena. "Pastoralists of Himalayas." Journal of Human Ecology 33, no. 3 (March 2011): 147–77. http://dx.doi.org/10.1080/09709274.2011.11906357.

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24

Chao, Chin‐Chung (Joy). "Climbing the Himalayas." Leadership & Organization Development Journal 32, no. 8 (November 2011): 760–81. http://dx.doi.org/10.1108/01437731111183720.

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25

Keller, Laurent, and Peter Nonacs. "The role of queen pheromones in social insects: queen control or queen signal?" Animal Behaviour 45, no. 4 (April 1993): 787–94. http://dx.doi.org/10.1006/anbe.1993.1092.

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26

Naish, John. "Green queen." Nursing Standard 3, no. 21 (February 19, 1989): 49. http://dx.doi.org/10.7748/ns.3.21.49.s79.

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27

Freeman-Attwood, Jonathan. "'Fairy Queen'." Musical Times 131, no. 1769 (July 1990): 374. http://dx.doi.org/10.2307/965765.

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28

Infante, Gabriella. "Queen Anne." Restoration and Eighteenth-Century Theatre Research 31, no. 1 (2016): 107–9. http://dx.doi.org/10.5325/rectr.31.1.0107.

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29

Holman, Luke. "Queen pheromones." Communicative & Integrative Biology 3, no. 6 (November 2010): 558–60. http://dx.doi.org/10.4161/cib.3.6.12976.

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30

&NA;. "‘THE QUEEN’." Oncology Times 28, no. 23 (December 2006): 57. http://dx.doi.org/10.1097/01.cot.0000288636.27762.b3.

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31

Crook, J. "Ocean Queen." Power Engineer 18, no. 1 (2004): 17. http://dx.doi.org/10.1049/pe:20040102.

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32

Jones, Leslie. "Snow Queen." Hopkins Review 13, no. 4 (2020): 508–30. http://dx.doi.org/10.1353/thr.2020.0076.

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33

Farmer, David John. "Red Queen." Administrative Theory & Praxis 29, no. 3 (January 2007): 359–69. http://dx.doi.org/10.1080/10841806.2007.11029594.

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34

Stangroom, Jeremy. "Darwin queen." Philosophers' Magazine, no. 11 (2000): 46–48. http://dx.doi.org/10.5840/tpm20001122.

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Paquette, Jean. "Queen Victoria." History: Reviews of New Books 32, no. 3 (January 2004): 105. http://dx.doi.org/10.1080/03612759.2004.10528671.

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Esquinca, María. "Cosmic Queen." Cream City Review 44, no. 1 (2020): 54. http://dx.doi.org/10.1353/ccr.2020.0010.

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Quinault, R. "Queen Victoria." English Historical Review 119, no. 481 (April 1, 2004): 546–48. http://dx.doi.org/10.1093/ehr/119.481.546.

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Carlea Holl-Jensen. "May Queen." Fairy Tale Review 12 (2016): 95. http://dx.doi.org/10.13110/fairtalerevi.12.1.0095.

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DONATELLI, NANCY STEPHENS, JEFFREY B. JOHNSTON, and ARLENE KIGER. "Queen Busting." Nursing Management (Springhouse) 26, no. 1 (January 1995): 42???43. http://dx.doi.org/10.1097/00006247-199501010-00008.

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Must, Dennis. "Queen Esther." Red Cedar Review 46, no. 1 (2011): 158–65. http://dx.doi.org/10.1353/rcr.2011.0029.

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Urban-Mead, Wendy. "Warrior Queen." Journal of Southern African Studies 38, no. 1 (March 2012): 239–40. http://dx.doi.org/10.1080/03057070.2012.661160.

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REAMES, DONNA. "QUEEN SHARON." Nursing 24, no. 10 (October 1994): 66–67. http://dx.doi.org/10.1097/00152193-199410000-00025.

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Stryker, Susan. "Radical Queen." TSQ: Transgender Studies Quarterly 3, no. 1-2 (May 2016): 278–84. http://dx.doi.org/10.1215/23289252-3334535.

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Murphy, Asia. "Queen Jolly." American Scientist 104, no. 1 (2016): 52. http://dx.doi.org/10.1511/2016.118.52.

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Morrissey, Mary Beth. "Queen Tutankhamun." Humanistic Psychologist 41, no. 1 (2013): 92–93. http://dx.doi.org/10.1080/08873267.2012.701519.

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McCutcheon, Doug. "Queen introduction." Bee World 82, no. 1 (January 2001): 5–21. http://dx.doi.org/10.1080/0005772x.2001.11099497.

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Poch, John. "Pomegranate Queen." New England Review 34, no. 3-4 (2014): 48. http://dx.doi.org/10.1353/ner.2014.0019.

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Jaffe, Maggie. "Queen Anacaona." Monthly Review 44, no. 3 (July 4, 1992): 25. http://dx.doi.org/10.14452/mr-044-03-1992-07_4.

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Williams, Mark. "Refrigerator Queen." Hudson Review 40, no. 4 (1988): 619. http://dx.doi.org/10.2307/3851134.

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Ruiz, Pedro. "Queen Square." Journal of Nervous and Mental Disease 207, no. 7 (July 2019): 595. http://dx.doi.org/10.1097/nmd.0000000000001011.

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