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Journal articles on the topic 'Liposcelis bostrychophila Badonnel'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Lin, Y. C., M. L. Chan, C. W. Ko, and M. Y. Hsieh. "Nail infestation by Liposcelis bostrychophila Badonnel." Clinical and Experimental Dermatology 29, no. 6 (November 2004): 620–21. http://dx.doi.org/10.1111/j.1365-2230.2004.01609.x.

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2

Leong, Edmund C. W., and S. H. Ho. "Life cycle of Liposcelis entomophila (Psocoptera: Liposcelididae) and a culturing regime for liposcelids." Bulletin of Entomological Research 85, no. 4 (December 1995): 501–6. http://dx.doi.org/10.1017/s0007485300032983.

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AbstractThe life cycle of Liposcelis entomophila (Enderlein) (Psocoptera: Liposcelididae) was studied at 30 ± 1°C and 75 ± 3% r.h. The mean developmental period of the females was 22.3 days and that of the males was 18.4 days. This corresponded to the males undergoing three, and the females four, nymphal stages. A 28% developmental mortality was observed. The average number of offspring produced in the first fornight was 9.6 and the natural mortality of the females was noted only from the sixth week, increasing to 54.1% by the 12th week. An extraction and culturing regime to obtain populations of one- to three-week old adult females was developed. This procedure was also found to be ideal for L. bostrychophila Badonnel.
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3

ATHANASSIOU, CHRISTOS G., FRANK H. ARTHUR, and JAMES E. THRONE. "Efficacy of Methoprene for Control of Five Species of Psocids (Psocoptera) on Wheat, Rice, and Maize." Journal of Food Protection 73, no. 12 (December 1, 2010): 2244–49. http://dx.doi.org/10.4315/0362-028x-73.12.2244.

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The insect growth regulator methoprene was evaluated for control of Liposcelis bostrychophila Badonnel, Liposcelis decolor (Pearman), Liposcelis entomophila (Enderlein), Liposcelis paeta Pearman (Psocoptera: Liposcelididae), and Lepinotus reticulatus Enderlein (Trogiidae) at application rates of 1, 5, and 10 ppm on maize, wheat, and rice. Methoprene did not completely suppress progeny production during the 40-day test period, but did cause a significant reduction in adult progeny in all psocid species at the application rates of 5 and 10 ppm. At 1 ppm, numbers of adults were reduced for all species on wheat and maize, but only for L. paeta on rice. Nevertheless, the numbers of nymphs present after 40 days generally were not reduced, relative to the controls. Methoprene applied at rates of 1 to 10 ppm to stored grain would not provide adequate control of psocids.
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4

Green, P. W. C., and B. D. Turner. "Food-selection by the booklouse, Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae)." Journal of Stored Products Research 41, no. 1 (January 2005): 103–13. http://dx.doi.org/10.1016/j.jspr.2004.01.002.

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5

MOCKFORD, EDWARD L., and PAUL D. KRUSHELNYCKY. "New species and records of Liposcelis Motschulsky (Psocoptera: Liposcelididae) from Hawaii with first description of the male of Liposcelis bostrychophila Badonnel." Zootaxa 1766, no. 1 (May 9, 2008): 53. http://dx.doi.org/10.11646/zootaxa.1766.1.3.

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Sampling of arthropods in ground and woody vegetation habitats in highland areas on the islands of Hawaii and Maui revealed six species of psocids of the genus Liposcelis. Three are new and are here described. L. maunakea sp. n. and L. volcanorum sp. n. are closely related and form a small species complex together with L. nasus Sommerman and L. deltachi Sommerman from southwestern United States and northern Mexico. A key to the species of this complex is included. The third new species, L. kipukae sp. n., is a member of group II-C with only 5 ommatidia in the eye. A key to the known species of group II-C with fewer than 7 ommatidia in the eye is included. First Hawaiian records are presented for L. bostrychophila Badonnel, L. deltachi, and L. rufa Broadhead. The first known males of L. bostrychophila are reported and described. This species is very widespread, but generally parthenogenetic.
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6

Bai, Chunqi, Judong Hou, Xu Guo, Xinyu Liu, Hao Zhang, Hui Li, and Dianxuan Wang. "Efficacy of ethylenesulphonyl fluoride against stored grain psocids, Liposcelis bostrychophila Badonnel and Liposcelis entomophila (Enderlein)." Journal of Stored Products Research 88 (September 2020): 101674. http://dx.doi.org/10.1016/j.jspr.2020.101674.

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7

Chai, Yu-Xin, Guo-Ying Liu, and Jin-Jun Wang. "Toxicological and biochemical characterizations of AChE in Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae)." Pesticide Biochemistry and Physiology 88, no. 2 (June 2007): 197–202. http://dx.doi.org/10.1016/j.pestbp.2006.11.003.

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8

Wang, Jinjun, Zhimo Zhao, and Lungshu Li. "SELECTION OF RESISTANCE STRAINS IN LIPOSCELIS BOSTRYCHOPHILA BADONNEL TO CO2-ENRICHED ATMOSPHERES." Insect Science 6, no. 1 (March 1999): 45–52. http://dx.doi.org/10.1111/j.1744-7917.1999.tb00009.x.

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9

Dou, W., J. J. Wang, and Z. M. Zhao. "Toxicological and biochemical characterizations of GSTs in Liposcelis bostrychophila Badonnel (Psocop., Liposcelididae)." Journal of Applied Entomology 130, no. 4 (May 2006): 251–56. http://dx.doi.org/10.1111/j.1439-0418.2006.01059.x.

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10

Yamada, Hanano, Carina Kraupa, Charles Lienhard, Andrew Gordon Parker, Hamidou Maiga, Danilo de Oliveira Carvalho, Minlin Zheng, Thomas Wallner, and Jeremy Bouyer. "Mosquito mass rearing: who’s eating the eggs?" Parasite 26 (2019): 75. http://dx.doi.org/10.1051/parasite/2019075.

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For the sterile insect technique, and other related biological control methods where large numbers of the target mosquito are reared artificially, production efficiency is key for the economic viability of the technique. Rearing success begins with high quality eggs. Excess eggs are often stockpiled and stored for longer periods of time. Any pests that prey on these eggs are detrimental to stockpiles and need to be avoided. Psocids of the genus Liposcelis (Psocoptera, Liposcelididae) are common scavengers consuming various types of organic material that are distributed globally and thrive in warm damp environments, making insectaries ideal habitats. In this short report, we investigated the species that has been found scavenging stored mosquito eggs in our insectary and identified it to be Liposcelis bostrychophila Badonnel, 1931. Additional observations were made to determine whether these predators indeed feed on mosquito eggs, and to suggest simple, effective ways of avoiding infestation.
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11

Wang, Jinjun. "Induced tolerance of the psocid, Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae), to controlled atmosphere." International Journal of Pest Management 45, no. 1 (January 1999): 75–79. http://dx.doi.org/10.1080/096708799228085.

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12

Ho, S. H., and R. G. Winks. "The response of Liposcelis bostrychophila Badonnel and L. entomophila (Enderlein) (Psocoptera) to phosphine." Journal of Stored Products Research 31, no. 3 (July 1995): 191–97. http://dx.doi.org/10.1016/0022-474x(95)00005-r.

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13

Beckett, S. J., and R. Morton. "The mortality of three species of Psocoptera, Liposcelis bostrychophila Badonnel, Liposcelis decolor Pearman and Liposcelis paeta Pearman, at moderately elevated temperatures." Journal of Stored Products Research 39, no. 1 (January 2003): 103–15. http://dx.doi.org/10.1016/s0022-474x(02)00026-7.

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14

JIANG, Hong-bo, Guang-mao SHEN, Wei DOU, Pei-an TANG, Yong-hua LIU, An-wei ZHOU, and Jin-jun WANG. "Identification and Expression of a β-actin Gene from Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae)." Agricultural Sciences in China 10, no. 9 (September 2011): 1391–401. http://dx.doi.org/10.1016/s1671-2927(11)60132-6.

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15

Wang, Jinjun, Zhimo Zhao, and Lungshu Li. "SOME BIOCHEMICAL ASPECTS OF RESISTANCE TO CONTROLLED ATMOSPHERE IN LIPOSCELIS BOSTRYCHOPHILA BADONNEL (POSCOPTERA: LIPOSCELIDIDAE)." Insect Science 6, no. 2 (June 1999): 178–86. http://dx.doi.org/10.1111/j.1744-7917.1999.tb00165.x.

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16

LI, HENG YU, XIN CHAO LIU, XU BO CHEN, QI ZHI LIU, and ZHI LONG LIU. "Chemical Composition and Insecticidal Activities of the Essential Oil of Clinopodium chinense (Benth.) Kuntze Aerial Parts against Liposcelis bostrychophila Badonnel." Journal of Food Protection 78, no. 10 (October 1, 2015): 1870–74. http://dx.doi.org/10.4315/0362-028x.jfp-15-089.

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Water-distilled essential oil from Clinopodium chinense (Labiatae) aerial parts at the flowering stage was analyzed by gas chromatography–mass spectrometry. Thirty-five compounds, accounting for 99.18% of the total oil, were identified, and the main components of the essential oil of C. chinense were spathulenol (18.54%), piperitone (18.9%), caryophyllene (12.04%), and bornyl acetate (8.14%). Based on bioactivity-directed fractionation, bornyl acetate, caryophyllene, and piperitone were identified from the essential oil. The essential oil possessed fumigant toxicity against booklice (Liposcelis bostrychophila) with a 50% lethal concentration (LC50) value of 423.39 μg/liter, while the isolated constituents, bornyl acetate and piperitone, had LC50 values of 351.69 and 311.12 μg/liter against booklice, respectively. The essential oil also exhibited contact toxicity against L. bostrychophila with an LC50 value of 215.25 μg/cm2. Bornyl acetate, caryophyllene, and piperitone exhibited acute toxicity against booklice with LC50 values of 321.42, 275.00, and 139.74 μg/cm2, respectively. The results indicated that the essential oil and its isolated constituents have potential for development into natural insecticides or fumigants for control of insects in stored grains.
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17

LIU, XIN CHAO, and ZHI LONG LIU. "Analysis of the Essential Oil of Illicium henryi Diels Root Bark and Its Insecticidal Activity against Liposcelis bostrychophila Badonnel." Journal of Food Protection 78, no. 4 (April 1, 2015): 772–77. http://dx.doi.org/10.4315/0362-028x.jfp-14-407.

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Water-distilled essential oil from Illicium henryi (Illiciaceae) root bark was analyzed by gas chromatography–mass spectrometry. Thirty-four compounds, accounting for 97.86% of the total oil, were identified. The main components of the essential oil of I. henryi root bark were safrole (46.12%), myristicin (20.39%), and 1,8-cineole (6.17%), followed by α-cadinol (3.784%) and linalool (3.22%). The essential oil had higher levels of phenylpropanoids (66.89%) than of monoterpenoids (14.83%) and sesquiternoids (16.14%). Three constituents were isolated from the oil based on bioactivity fractionation. The essential oil possessed fumigant toxicity against booklice (Liposcelis bostrychophila), with a 50% lethal concentration (LC50) of 380.39 μg/liter of air, while the two isolated constituents myristicin and safrole had LC50s of 121.95 and 322.54 μg/liter, respectively. Another constituent, 1,8-cineole, showed weaker toxicity, with an LC50 of 1,120.43 μg/liter. The essential oil also exhibited contact toxicity against L. bostrychophila, with an LC50 of 96.83 μg/cm2. Myristicin (LC50, 18.74 μg/cm2) and safrole (LC50, 69.28 μg/cm2) exhibited stronger acute toxicity than 1,8-cineole (LC50, 1,049.41 μg/cm2) against the booklice. The results indicated that the essential oil and its constituent compounds have potential for development into natural insecticides for control of psocids in stored grains.
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18

Jiang, Hong-Bo, Pei-An Tang, Yong-Qiang Xu, Feng-Ming An, and Jin-Jun Wang. "Molecular characterization of two novel deltamethrin-inducible P450 genes from Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae)." Archives of Insect Biochemistry and Physiology 74, no. 1 (March 18, 2010): 17–37. http://dx.doi.org/10.1002/arch.20358.

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19

Liu, Xin, Li Zhou, Zhi Liu, and Shu Du. "Identification of Insecticidal Constituents of the Essential Oil of Acorus calamus Rhizomes against Liposcelis bostrychophila Badonnel." Molecules 18, no. 5 (May 15, 2013): 5684–96. http://dx.doi.org/10.3390/molecules18055684.

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20

Green, P. W. C. "Substrate selection by Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae): effects of insect extracts and biodeteriorated book-paper." Journal of Stored Products Research 41, no. 4 (January 2005): 445–54. http://dx.doi.org/10.1016/j.jspr.2004.05.004.

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21

Yoshinami, Makoto, Rikuya Machida, Naoki Kobayashi, Yoshiko Sugita-Konishi, and Katsunori Furuhata. "Multifaceted fungal characteristics determining the fungal feeding preferences of the psocid, Liposcelis bostrychophila badonnel (Psocoptera: Liposcelidae)." Journal of Stored Products Research 88 (September 2020): 101659. http://dx.doi.org/10.1016/j.jspr.2020.101659.

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22

Dou, Wei, Guang-Mao Shen, Jin-Zhi Niu, Tian-Bo Ding, Dan-Dan Wei, and Jin-Jun Wang. "Mining Genes Involved in Insecticide Resistance of Liposcelis bostrychophila Badonnel by Transcriptome and Expression Profile Analysis." PLoS ONE 8, no. 11 (November 20, 2013): e79878. http://dx.doi.org/10.1371/journal.pone.0079878.

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23

Liu, Zhi, Na Zhao, Chun Liu, Ligang Zhou, and Shu Du. "Identification of Insecticidal Constituents of the Essential Oil of Curcuma wenyujin Rhizomes Active against Liposcelis bostrychophila Badonnel." Molecules 17, no. 10 (October 15, 2012): 12049–60. http://dx.doi.org/10.3390/molecules171012049.

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24

Yusuf, Mohammed, and Bryan Turner. "Characterisation of Wolbachia-like bacteria isolated from the parthenogenetic stored-product pest psocid Liposcelis bostrychophila (Badonnel) (Psocoptera)." Journal of Stored Products Research 40, no. 2 (January 2004): 207–25. http://dx.doi.org/10.1016/s0022-474x(02)00098-x.

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25

Wang, Jin-Jun, Zhi-Mo Zhao, and James H. Tsai. "Resistance and some enzyme activities in Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae) in relation to carbon dioxide enriched atmospheres." Journal of Stored Products Research 36, no. 3 (July 2000): 297–308. http://dx.doi.org/10.1016/s0022-474x(99)00051-x.

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26

VALBUZA, MARCIA DA FONSECA, ALFONSO NERI GARCÍA ALDRETE, MARCOS ROBERTO POTENZA, and ANA EUGÊNIA DE CARVALHO CAMPOS. "Psocoptera (Psocodea) in Spice and Medicinal Dehydrated Plants Sold in Bulk in a Big Metropolis in Brazil." Journal of Food Protection 81, no. 11 (October 9, 2018): 1810–14. http://dx.doi.org/10.4315/0362-028x.jfp-18-117.

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ABSTRACT In Brazil, the production of dried herbs and condiments is on a smaller scale than that of its other agricultural sectors; however, it has been growing and attracting new producers, driven by the stimulus to provide healthy and gourmet foods. Insects in the order Psocoptera may cause loss of quality in such dried foods, and because of their small size, these insects can be easily transported by commerce. No information is available on how these insects may be entering Brazil via the importation of dehydrated products or how they may be exported with the increase of Brazilian dried food production. To examine these issues, 10 sites offering foods sold in bulk within the city of São Paulo, Brazil, were chosen. At each food site, the same 20 species of aromatic spice and medicinal dehydrated plants were purchased. In the laboratory, they were analyzed for the presence of insects immediately after acquisition. After removal of nymphal and adult psocopterans, the plants were kept in vials under environmental conditions to be investigated 40 days later. Psocopterans were found in 12 of the 20 dehydrated plant species. Eleven psocopteran species were recorded, including six species of unidentified Liposcelis. Liposcelis bostrychophila (Badonnel) was found in all samples with the presence of insects. The other frequent species were Liposcelis entomophila (Enderlein) and Lepinotus reticulatus (Enderlein). Lepinotus reticulatus constitutes the first record in Brazil. In total, 1,021 insects were recorded in the evaluation right after purchase, and this number grew to 3,734 individuals recovered 40 days later under laboratory conditions. The data show that in a relatively short period of storage, a population increase occurs that may cause loss of product quality and a decrease in organoleptic properties. Thus, it is necessary to have greater surveillance of the products so that consumers have access to quality dehydrated foods.
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27

Jiang, Xuan-Zhao, Dan-Dan Wei, Wen-Jia Yang, Wei Dou, Shi-Chun Chen, and Jin-Jun Wang. "Molecular Characterization and Alternative Splicing of a Sodium Channel and DSC1 Ortholog Genes in Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae)." International Journal of Biological Sciences 9, no. 9 (2013): 989–1003. http://dx.doi.org/10.7150/ijbs.6978.

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28

Liu, Xin, Yin Li, He Li, Zhi Deng, Ligang Zhou, Zhi Liu, and Shu Du. "Identification of Repellent and Insecticidal Constituents of the Essential Oil of Artemisia rupestris L. Aerial Parts against Liposcelis bostrychophila Badonnel." Molecules 18, no. 9 (September 3, 2013): 10733–46. http://dx.doi.org/10.3390/molecules180910733.

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29

Mikac, Katarina M. "PCR confirms multiple Wolbachia strain infection in Australian and international populations of the invasive stored-product psocid Liposcelis bostrychophila Badonnel." Journal of Stored Products Research 43, no. 4 (January 2007): 594–97. http://dx.doi.org/10.1016/j.jspr.2007.01.005.

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30

Green, P. W. C. "Fungal isolates involved in biodeterioration of book-paper and their effects on substrate selection by Liposcelis bostrychophila (Badonnel) (Psocoptera: Liposcelididae)." Journal of Stored Products Research 44, no. 3 (January 2008): 258–63. http://dx.doi.org/10.1016/j.jspr.2008.01.003.

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31

Ding, Wei, Jin-Jun Wang, Zhi-Mo Zhao, and James H. Tsai. "Effects of controlled atmosphere and DDVP on population growth and resistance development by the psocid, Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae)." Journal of Stored Products Research 38, no. 3 (January 2002): 229–37. http://dx.doi.org/10.1016/s0022-474x(01)00017-0.

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32

Yusuf, M., B. Turner, P. Whitfield, R. Miles, and J. Pacey. "Electron microscopical evidence of a vertically transmitted Wolbachia-like parasite in the parthenogenetic, stored-product pest Liposcelis bostrychophila Badonnel (Psocoptera)." Journal of Stored Products Research 36, no. 2 (April 2000): 169–75. http://dx.doi.org/10.1016/s0022-474x(99)00037-5.

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Dou, Wei, Shuang Wu, Muhammad W. Hassan, and Jin-Jun Wang. "Purification and biochemical characterization of glutathione S-transferases from three strains of Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae): Implication of insecticide resistance." Pesticide Biochemistry and Physiology 94, no. 1 (May 2009): 10–14. http://dx.doi.org/10.1016/j.pestbp.2009.02.005.

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Wang, Yinan, Entao Sun, Wenlian Wang, Kang Wang, Huan Wang, and Mengkai Ge. "Effects of habitat fragmentation on genetic diversity and population differentiation of Liposcelis bostrychophila badonnel (Psocoptera: Liposcelididae) as revealed by ISSR markers." Journal of Stored Products Research 68 (July 2016): 80–84. http://dx.doi.org/10.1016/j.jspr.2016.04.008.

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35

Liu, Xin Chao, Xiao Nan Lu, Qi Zhi Liu, and Zhi Long Liu. "Evaluation of insecticidal activity of the essential oil of Allium chinense G. Don and its major constituents against Liposcelis bostrychophila Badonnel." Journal of Asia-Pacific Entomology 17, no. 4 (December 2014): 853–56. http://dx.doi.org/10.1016/j.aspen.2014.08.007.

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36

Cheng, Wei-Xia, Wei Dou, Yu-Xin Chai, and Jin-Jun Wang. "Comparison of biochemical and toxicological characterizations of glutathione S-transferases and superoxide dismutase between Liposcelis bostrychophila Badonnel and L. entomophila (Enderlein) (Psocoptera: Liposcelididae)." Pesticide Biochemistry and Physiology 89, no. 2 (October 2007): 151–57. http://dx.doi.org/10.1016/j.pestbp.2007.05.004.

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37

Wang, Jin-Jun, James H. Tsai, Zhi-Mo Zhao, and Lung-Shu Li. "Interactive effects of temperature and controlled atmosphere at biologically relevant levels on development and reproduction of the psocid, Liposcelis bostrychophila Badonnel (Psocoptera: Liposcelididae)." International Journal of Pest Management 47, no. 1 (January 2001): 55–62. http://dx.doi.org/10.1080/09670870150215603.

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38

Rees, D. P., and A. J. Walker. "The effect of temperature and relative humidity on population growth of three Liposcelis species (Psocoptera: Liposcelidae) infesting stored products in tropical countries." Bulletin of Entomological Research 80, no. 3 (September 1990): 353–58. http://dx.doi.org/10.1017/s0007485300050562.

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AbstractThe effect of a range of temperatures (15–42°C) and relative humidities (40–80%) on growth of populations of Liposcelis entomophilus (Enderlein), Liposcelis bostrychophilus Badonnel and Liposcelis paetus Pearman infesting a rice-based medium was investigated. These species are often found infesting stored cereal grains in the tropics. Both L. entomophilus and L. bostrychophilus bred most rapidly at 30°C, 70–80% r.h. Neither survived at temperatures of 36°C and above. In contrast, L. paetus bred most rapidly at 33–36°C, 70% r.h., and was able to breed at 42°C, 80% r.h. No species survived humidities below 60%. As well as consuming mould growth, Liposcelis spp. also caused visible damage in rice grains. Implications of these findings in the understanding of pest status and geographical distribution of severe outbreaks of Liposcelis spp. are discussed.
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39

Turner, Bryan D., and Hannah Maude-Roxby. "Starvation survival of the stored product pest Liposcelis bostrychophilus Badonnel (Psocoptera, Liposcelidae)." Journal of Stored Products Research 24, no. 1 (February 1988): 23–28. http://dx.doi.org/10.1016/0022-474x(88)90005-7.

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40

Retief, E., A. Nicholas, and H. Baijnaith. "The psocid Liposcelis bostrychophilus Badonnel (Psocoptera: Liposcelidae): an occasional herbarium pest." Bothalia 25, no. 2 (October 9, 1995): 247–53. http://dx.doi.org/10.4102/abc.v25i2.739.

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The herbarium pest Uposcelis bostry chophilus is described and illustrated. Aspects of the insect's life cycle and eradication are discussed. Where possible, non-toxic methods, such as sterile-entry techniques of control, should be used. If infestations are epidemic and serious damage is being incurred, there may be no alternative but to use pesticides or fumigants.
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41

Vale Soeiro, Keyssyane Nathalia, Joseane Rodrigues de Souza, Cláudio Gonçalves da Silva, Maurício José de Sousa Paiva, Jorge Brasilino de Matos Junior, and Dayana Paulino da Conceição. "PRIMEIRO REGISTRO DE Liposcelis bostrychophilus Badonnel (PSOCOPTERA: LIPOSCELIDIDAE) EM GRÃOS DE ARROZ NO ESTADO DO MARANHÃO." Agrotrópica (Itabuna) 27, no. 1 (April 30, 2015): 79–82. http://dx.doi.org/10.21757/0103-3816.2015v27n1p79-82.

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42

Mills, J. T., R. N. Sinha, and C. J. Demianyk. "Feeding and Multiplication of a Psocid, Liposcelis bostrychophilus Badonnel (Psocoptera: Liposcelidae), on Wheat, Grain Screenings, and Fungi." Journal of Economic Entomology 85, no. 4 (August 1, 1992): 1453–62. http://dx.doi.org/10.1093/jee/85.4.1453.

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43

Zhang, Guoqing, An Gu, and Le Wei. "Regularity in distribution, and control, of pests in the hall of mental cultivation, the Forbidden City, Beijing, China." Heritage Science 9, no. 1 (September 14, 2021). http://dx.doi.org/10.1186/s40494-021-00588-z.

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Abstract:
AbstractPests can seriously threaten the safety of organic relics and historic buildings. Every year, the Palace Museum spends a large of money and time preventing and controlling pests, but there is still no a better systematic and targeted method. The Hall of Mental Cultivation is a representative and essential building in the Forbidden City. Through three years of pest monitoring, the species, quantity, and occurrence regularity of the major pests were investigated. During this time, more than ten species of insects were trapped. These included carpet beetles (Anthrenus picturatus hintoni Mroczkowski, 1952 and Thylodrias contractus Motschulsky, 1839), silverfish (Ctenolepisma longicaudata Escherich, 1905), powder-post beetles (Lyctus brunneus Stephens, 1830), booklice (Liposcelis bostrychophila Badonnel, 1931), spider beetles (Ptinus japonicus Reitter, 1877 and Gibbium aequinoctiale Boieldieu, 1865) and the case bearing clothes moths (Tinea pellionella Linnaeus, 1758), among which the Anthrenus picturatus was the primary pests. Abundant resources of organic relics, suitable temperature, humidity, and light environment, and cypress existence are favorable factors for the occurrence of pests, and analysis of these factors is helpful for further integrated pest management (IPM). The period with the most significant number of active pests in the Hall of Mental Cultivation is July and August, and April and May are the rapid growth period. Carpet beetles are the key pests that can affect the overall change trend significantly. It should combine with their living habits, the ideal treatment time and methods, to give them a better control. Fumigation should be done in July and August, while chemical spray should be done referring to the florescence of outdoor trees (March to June), and used of pheromone is reasonable preventative measures.
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