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Zeitschriftenartikel zum Thema „Silkwarm rearing system“

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Veröffentlicht am 18. Mai 2024

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1

H S, Deepthi, und Anitha S. Sastry. „IMAGE PROCESSING BASED SMART SERICULTURE SYSTEM USING IOT“. International Journal of Advances in Agricultural Science and Technology 8, Nr. 9 (30.09.2021): 23–31. http://dx.doi.org/10.47856/ijaast.2021.v08i9.004.

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Rearing of silkworm is highly dependent on environmental variations. To have a healthy cocoon production, it is necessary to have a proper temperature and humidity controlled house for silkworm rearing. Temperature, humidity and fresh air should be managed to get a wonderful silk product. An ideal temperature of 23°C to 28°C and humidity in between 65% to 85% is to be maintained. IoT based silkworm rearing house consists of sensors and actuators, which are interfaced with a low power controllers. The Sericulture unit can be equipped with a wireless sensor node to sense the real time Temperature and Humidity [1], also necessary actuators to control these environmental parameters. The color change in the body of the worms indicates the different stages and the light yellowish indicates that they have reached to the cocoon stage and the morphological changes in silkworm structure can be used to detect abnormal worms[2].The proposed framework introduces an Internet of Things (IoT) empowered Wireless Personal Area Network (WPAN) system. The received image is first segregated into two classes as diseased or healthy by analyzing the histogram of the background removed image based on thresholding. Again the diseased class will be sub classified into 2 diseases as either Flacherie or Pebrine by applying suitable mask for extracting worm and obtaining the histogram of the worm and analyzing it. The result will be sent to the farmer via E-mail. The proposed system could be a probable solution for productivity in silkworms.
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P, Venugopal, Ramya V, Sai Sathvika, Preeyanka . und Swathi . „Automated Sericulture System“. International Journal of Innovative Research in Advanced Engineering 10, Nr. 06 (23.06.2023): 320–23. http://dx.doi.org/10.26562/ijirae.2023.v1006.14.

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This paper is focused on Sericulture which denotes to the rearing of silkworm to produce silk. Parameter like Temperature, Humidity and light intensity are the important factors in the progression of silkworms and suitable encouraging must be done according requisites in every stage. Sericulture alludes to the raising silkworms to deliver silk; India is the second highest producer of silk in delivering 15% of the aggregates silk creation alongside China. Silk is called the queen of tensile properties. Although there are several commercial species of silkworm monitoring is a greatest challenge for the farmer. Silk worms in every stage, especially during the development of larva. Disinfection is one of the reproving parameters to be considered for healthy and successful silk worm rearing, sericulture is the significant occupation in the country side of India. Hence there exists the need of using innovation in sericulture cultivate .Aim of our project is to protect the silkworms from the proper environmental parameters and making the system automated. Automated sericulture system using IOT is to detect the temperature, Humidity, air quality, rain, etc.., through buzzer and automatically switching on exhaust fan and lights. In this project we use mq2 sensor to detect smoke which produces noise through the buzzer. The temperature, water and humidity sensor are also used to sense the parameters respectively and shows real time updates to the user of the server. The sericulture system use to get affected by the existing methods with more human interventions. Our method is automated which can reduce the work of the people. And this system can be used as the base to many other projects like baby monitoring system, green house monitoring system, mushroom and broccoli monitoring system.
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Matsumoto, Yasuhiko, Yuki Tateyama und Takashi Sugita. „Evaluation of Antibacterial Drugs Using Silkworms Infected by Cutibacterium acnes“. Insects 12, Nr. 7 (08.07.2021): 619. http://dx.doi.org/10.3390/insects12070619.

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Cutibacterium acnes is a causative agent of inflammatory skin diseases and systemic infections. Systemic infections caused by C. acnes are difficult to treat, and the development of a systemic infection model for C. acnes would be useful for elucidating the mechanisms of infection and searching for therapeutic agents. In this study, we established a silkworm infection model as a new experimental system to evaluate the interaction between C. acnes and the host, and the efficacy of antibacterial drugs. Silkworms infected with C. acnes died when reared at 37 °C. The dose of injected bacterial cells required to kill half of the silkworms (LD50) was determined under rearing conditions at 37 °C. The viable cell number of C. acnes was increased in the hemolymph and fat body of the infected silkworms. Silkworms injected with autoclaved C. acnes cells did not die during the study period. The survival time of silkworms injected with C. acnes was prolonged by the injection of antibacterial drugs such as tetracycline and clindamycin. These findings suggest that the silkworm C. acnes infection model can be used to evaluate host toxicity caused by C. acnes and the in vivo efficacy of antimicrobial drugs.
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Xu, Jun, Qinglin Dong, Ye Yu, Baolong Niu, Dongfeng Ji, Muwang Li, Yongping Huang, Xin Chen und Anjiang Tan. „Mass spider silk production through targeted gene replacement in Bombyx mori“. Proceedings of the National Academy of Sciences 115, Nr. 35 (06.08.2018): 8757–62. http://dx.doi.org/10.1073/pnas.1806805115.

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Spider silk is one of the best natural fibers and has superior mechanical properties. However, the large-scale harvesting of spider silk by rearing spiders is not feasible, due to their territorial and cannibalistic behaviors. The silkworm, Bombyx mori, has been the most well known silk producer for thousands of years and has been considered an ideal bioreactor for producing exogenous proteins, including spider silk. Previous attempts using transposon-mediated transgenic silkworms to produce spider silk could not achieve efficient yields, due to variable promoter activities and endogenous silk fibroin protein expression. Here, we report a massive spider silk production system in B. mori by using transcription activator-like effector nuclease-mediated homology-directed repair to replace the silkworm fibroin heavy chain gene (FibH) with the major ampullate spidroin-1 gene (MaSp1) in the spider Nephila clavipes. We successfully replaced the ∼16-kb endogenous FibH gene with a 1.6-kb MaSp1 gene fused with a 1.1-kb partial FibH sequence and achieved up to 35.2% chimeric MaSp1 protein amounts in transformed cocoon shells. The presence of the MaSp1 peptide significantly changed the mechanical characteristics of the silk fiber, especially the extensibility. Our study provides a native promoter-driven, highly efficient system for expressing the heterologous spider silk gene instead of the transposon-based, random insertion of the spider gene into the silkworm genome. Targeted MaSp1 integration into silkworm silk glands provides a paradigm for the large-scale production of spider silk protein with genetically modified silkworms, and this approach will shed light on developing new biomaterials.
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Bhattacharyya, Phalguni. „Artificial Diet Based Silkworm Rearing System-A Review“. International Journal of Pure & Applied Bioscience 4, Nr. 6 (30.12.2016): 114–22. http://dx.doi.org/10.18782/2320-7051.2402.

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6

Ohura, Masanobu. „Development of Automated Artificial Diet Feeder for Silkworm Rearing System“. IFAC Proceedings Volumes 33, Nr. 29 (November 2000): 265–69. http://dx.doi.org/10.1016/s1474-6670(17)36788-5.

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Tong, Ling, und Hong Liu. „Rearing of silkworm larva in a closed gas revitalizing plant system“. Ecological Engineering 37, Nr. 9 (September 2011): 1259–66. http://dx.doi.org/10.1016/j.ecoleng.2010.12.008.

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8

Umarov, Shavkat, und Bakhtiyar Nasirillaev. „Creation of heat-resistant, high-product breeds and hybrids of mulberry silkworm (Bombyx mori l.)“. E3S Web of Conferences 371 (2023): 01028. http://dx.doi.org/10.1051/e3sconf/202337101028.

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In the current era of highly developed science, technology and technology, the demand for natural fabrics is increasing year by year in the world market, and the world silk industry and science are led to the cultivation of mulberry varieties with high nutritional value and the creation of breeds and hybrids suitable for different seasons of the changing external environment. In recent years, in the Republic of Uzbekistan, the practice of rearing mulberry silkworms several times a year has been used. However, there are no breeds and hybrids suitable for the hot summer conditions of our country, based on this, scientific research has been started in the direction of creating heat-resistant breeds at the Silk Research Institute. In this article, the results of the breeding of 6 breeds and 4 different industrial hybrids of mulberry silkworm under hot conditions are described. Based on preliminary data, Line 1 and Line 2 systems were found to have high embryonic and post-embryonic viability under hot summer conditions. However, the average cocoon weight of these systems was 1.68-1.73 g, cocoon shell weight was 339 mg, and cocoon silkiness was 19.6-20.2%. Based on the obtained results, it was concluded that Line 1 and Line 2 systems can be used as initial selection material for creating heat resistant breeds.
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Vijayan, K., P. P. Srivastava, P. J. Raju und B. Saratchandra. „Breeding for higher productivity in mulberry“. Czech Journal of Genetics and Plant Breeding 48, No. 4 (31.10.2012): 147–56. http://dx.doi.org/10.17221/162/2011-cjgpb.

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Mulberry (Morus L.) is an economically important tree being cultivated for its leaves to rear the silkworm Bombyx mori. Rearing of silkworm is an art and science popularly known as sericulture; an agrobased cottage industry provides employment to millions in China, India, Korea, Vietnam, etc. Mulberry is a perennial tree that maintains high heterozygosity due to the outbreeding reproductive system. It is recalcitrant to most of the conventional breeding methods, yet considerable improvement has been made in leaf yield and leaf quality. Conventional breeding in mulberry is a tedious, labour intensive and time taking process, which needs to be complemented with modern biotechnological methods to speed up the process. This article enumerates the problems, challenges, constraints and achievements in mulberry breeding along with recent advances in biotechnology and molecular biology to enable mulberry breeders to tackle specific problems more systematically and effectively.
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Lertsatitthanakorn, C., S. Rerngwongwitaya und S. Soponronnarit. „Field Experiments and Economic Evaluation of an Evaporative Cooling System in a Silkworm Rearing House“. Biosystems Engineering 93, Nr. 2 (Februar 2006): 213–19. http://dx.doi.org/10.1016/j.biosystemseng.2005.12.003.

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Nasirillaev, Bakhtiyar, und Safarali Khudjamatov. „Egg productivity and viability of larvae of promising breeding systems obtained based on foreign silkworm breeds“. BIO Web of Conferences 93 (2024): 02004. http://dx.doi.org/10.1051/bioconf/20249302004.

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This article comparatively analyzes the viability as well as the fertility of silkworms of local breeds and promising breeding systems during the egg and larval periods. Based on the results of the study, average indicators of eggs hatchability, viability and the morbidity degree of larvae of new breeding systems were identified. At the same time, according to the results obtained, new promising systems in the combination Parvoz 1 x foreign and Parvoz 2 x foreign showed an average degree in terms of fertility characteristics. Uzbek-Chinese breeds are important in the rearing of high-quality cocoon raw materials for sericulture in Uzbekistan in the future, and therefore it is advisable further development of scientific research in this direction and bring it to a new level.
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Prabhu, I. G., Mr Manjappa, M. M. Baig, N. Kumar, A. K. Sinha und S. Kutala. „Molecular cloning and development of RAPD-SCAR markers for the selection of thermo-tolerant line of tropical tasar silkworm“. Journal of Environmental Biology 44, Nr. 3(SI) (03.06.2023): 464–71. http://dx.doi.org/10.22438/jeb/44/3(si)/jeb-24.

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Aim: To develop random amplified polymorphic DNA (RAPD) -sequence-characterized amplified region (SCAR) markers for selecting thermo-tolerant line of tropical tasar silkworm. Methodology: In the environmental chamber, Daba BV cocoons of A. mylitta were exposed to high temperature at 46°C/4 hr for 3 days. After the emergence, genomic DNA was extracted from thermo-tolerant moths and thermo-susceptible pupae. The genomic DNA was amplified using 30 RAPD random decamer primers. The improved RAPD fragments that can differentiate thermo-tolerant and susceptible line of A. mylitta were eluted, cloned in pJET1.2 vector and sequenced. SCAR markers were developed based on the sequence and validated in the subsequent generations. Results: Among 30 RAPD primers, OPK04, OPAJ15 and OPA17 generated polymorphic bands to differentiate thermo-tolerant and susceptible line of A. mylitta. These polymorphic bands were eluted, cloned and sequenced. Sequencing of three cloned fragments revealed that clone PB1 comprised of 1412 bp, clone PB2 comprised of 704 bp and clone PB3 comprised of 931 bp. Sequence specific stable multiplex SCAR markers TT-PB1, TT-PB2 and TT-PB3 were designed and synthesized. PCR amplification was performed using DNA templates of 10 thermo-tolerant and 10 thermo-susceptible samples. SCAR marker TT-PB1 was observed to be more specific to thermo-tolerant line of tropical tasar silkworm and validation with 25 samples each in next generation also supported the specificity of TT-PB1. Interpretation: Among three SCAR markers, TT-PB1 showed more specificity for selecting the thermo-tolerant line of A. mylitta. Therefore, the study provides an effective and precise PCR-based molecular marker system for selecting thermo-tolerant lines in tropical tasar silkworm to overcome seed crop loss due to high temperature stress in tasar rearing hotter zones. Key words: Antheraea mylitta, cloning, RAPD, SCAR m­­­arker, Thermo-tolerance
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Doloi, Arnob, Nairit Barkataki, Monimala Saikia und Debashis Saikia. „Development of a wireless sensor network based smart multiple ambient conditions sensing system for the rearing process of eri silkworm“. International Journal of Advanced Technology and Engineering Exploration 6, Nr. 52 (21.03.2019): 50–60. http://dx.doi.org/10.19101/ijatee.2019.650010.

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14

Hosamani, Vinayak, S. Murali, P. Sowmya, Venkatesh Hosamani, J. Ashoka, C. R. Hegde und R. K. Mishra. „Influence of Nutrition on Growth and Yield of G4 Mulberry Variety (Morus alba L.) and Bio-assay of Multivoltine Silkworm, Pure Mysore in Southern dry Zone of Karnataka, India“. Journal of Scientific Research and Reports 29, Nr. 6 (16.05.2023): 32–39. http://dx.doi.org/10.9734/jsrr/2023/v29i61752.

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The experiment was carried out during 2019-20 at P-2 Pure Mysore Multivoltine Basic Seed Farm (BSF), National Silkworm Seed Organisation, Nagenahalli, Karnataka to know the effect of nutrient management on the growth and yield of G4 mulberry variety and its subsequent bioassay of multivoltine silkworm, Pure Mysore. The mulberry garden (three years old) with G4 variety planted in paired row system was used for the experiment with seven treatments and three replications. The growth parameters (average of 5 crops) viz., plant height, number of branches per plant, lowest number of leaf in 100g weight, weight of individual leaf, weight of 100 fresh leaf, leaf yield per plant and leaf yield per ha-1were significantly highest (134.6 cm, 14.0, 24.0, 4.18g, 384g, 800g and 55.55 Mt) with the application of 100 % RDF, poshan spray and application of vermicompost at5 t/ha/year. The results of the bio-assay (average of five rearings) also showed the superiority forweight of 10 full grown larvae (27.2 gm), single cocoon weight (1.27g), single shell weight (0.18g), shell ratio (14.25%), ERR (95.00%) pupation (92.00%), number of cocoons/kg (787) and yield per 100 dfls (52.10 kg) in the treatment having 100 % RDF, poshan spray and application of vermicompost of at5 t/ha than other treatments. Combined application of organic and inorganic sources of nutrients increased the productivity of the mulberry in G4 variety and subsequently better performance of Pure Mysore multivoltine seed cocoon parameters.
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Cappellozza, Luciano, Silvia Cappellozza, Alessio Saviane und Giovanni Sbrenna. „Artificial diet rearing system for the silkworm Bombyx mori (Lepidoptera: Bombycidae): effect of vitamin C deprivation on larval growth and cocoon production“. Applied Entomology and Zoology 40, Nr. 3 (2005): 405–12. http://dx.doi.org/10.1303/aez.2005.405.

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16

Devi, S., und N. Sakthivel. „Impact of Repeated Applications of Chemical Fertilizers in Mulberry Cropping System on Soil Health, Leaf Production and Rearing Parameters of Silkworm, Bombyx mori L.“ International Journal of Plant & Soil Science 23, Nr. 2 (08.06.2018): 1–11. http://dx.doi.org/10.9734/ijpss/2018/41812.

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17

Datta, Subhas Chandra. „HOMEOPATHIC MEDICINES-AAKASHMONI WILL BE THE BEST VACCINE AGAINST COVID-19: ENRICHING AGRICULTURE SCIENCE AND TECHNOLOGY COMMUNICATION MECHANISM APPLICATION ISSUES!“ International Journal of Research -GRANTHAALAYAH 8, Nr. 11 (18.12.2020): 333–61. http://dx.doi.org/10.29121/granthaalayah.v8.i11.2020.2458.

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Still now, no effective vaccine or treatment for the fifth endemic novel coronavirus COVID-19, forming endemic, is analogous to war, affecting our normal-, private- and professional- life, the planet economy, and also the communities. It is reported from the previous experiments, the homeopathic biomedicines; Aakashmoni or Acaciasides, or Acacia auriculiformis-extract, is being employed traditionally to beat various medical complications. Present pretreatment with ultra-high-diluted homeopathic biomedicine-Aakashmoni, prepared from the fruits of acacia A. Cunn, mixed with water at a particularly low dose, were applied by foliar spray once daily for 15 days @ 10 ml/plant, against present, root-knot-, leaf spot-, powdery mildew-, mosaic- and tukra- mulberry diseases, during a field trials and silkworms rearing. Pretreatment- investigations have confirmed that ultra-high-diluted homeopathic biomedicine Aakashmoni highly effective in ameliorating different mulberry diseases by inducing their natural defense-response against pathogens-infection and leaving no residual toxicity within the leaves to affect the expansion of silkworms also. Presently, no appropriate antiviral drugs are discovered to treat COVID-19. So, to concur matters, “Four Confirmed-Suggestions for Vaccine and Clinical Trials with Homeopathic Biomedicines-Aakashmoni at an especially low dose, Against COVID-19 at by Boosting system for the development of Science and Technology Communication Mechanism Application Issues” forming the ‘Best Vaccine’, which not only shows the clinical, physical, chemical, biological and physiological effects but also on relative molecular mass, explaining the confirmation of mechanism and action of the homeopathic medicines supported scientific experimentations and proofs, and also the future clinical-scientists develop all aspects of clinical-case-reports globally by publishing with the sincere hope that the crisis of human civilization will soon be over and also the whole world may retain in normal forms by fighting against the COVID-19 war.
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Qayoom, Kahkashan, Shaista Manzoor, Aroos Rauf Rafiqui und Omais Bin Ayoub. „Biotic and Abiotic Stress Management under Climate Change in Sericulture“. International Journal of Agricultural and Applied Sciences 4, Nr. 2 (20.12.2023): 46–52. http://dx.doi.org/10.52804/ijaas2023.426.

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Climate change threatens sustainable agriculture with its rapid and unpredictable consequences, making it more challenging for agricultural researchers and farmers to adjust to biotic and abiotic stress challenges. The combined impacts of climate, including temperature, precipitation, humidity, and other factors including soil moisture, atmospheric CO2, and tropospheric ozone (O3), will determine the potential influence of global climate change on plant-pest populations. Variations in sericulture productivity can be caused by either direct consequences of these factors at the plant level or repercussions at the system level, such as variations in insect pest prevalence. In addition to the physiological response of the impacted mulberry plant, silkworm rearing, and post-cocoon technology, as well as variations in the frequency of droughts or floods, all these factors determine how vulnerable raw silk production is to climate change. A number of researchers in the field of sericulture predicted that climate change would have a major impact on the productivity of silk, which has a direct impact on the Indian economy, was predicted by a number of researchers in the field of sericulture. The development of genotypes suited for various agro-climatic situations is essential for ensuring the long-term sustainability of the sericulture sector amid global climatic change and the impending scarcity of land and water. Transgenic revolution, tissue culture, transcriptomics, proteomics, and metabolomics in mulberry will generate advanced biotechnological cultivation technologies that will improve sericulture industry’s economy and the quality of life of those engaged in sericulture practices.
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Datta, Subhas Chandra. „BIOMEDICINES-CINA AGAINST COVID-19: CONTROLLED PLANT DISEASES ENRICHED SCIENCE AND TECHNOLOGY COMMUNICATION GREEN ECONOMY“. International Journal of Research -GRANTHAALAYAH 8, Nr. 9 (02.10.2020): 234–55. http://dx.doi.org/10.29121/granthaalayah.v8.i9.2020.1537.

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The economic-plant-mulberry is infected by different pathogens causing diseases and significantly reduces silk production. Though pesticides are the most effective means of control, but they are expensive and not environment friendly. On the other hand, the ongoing spread of the novel coronavirus, forming epidemic, affecting human civilizations, because recently, no appropriate antiviral drugs for effective treatments or vaccines against COVID-19. To meet the challenge, it is reported that the therapeutic value of traditional-, complementary- and alternative-biomedicines-Artemisia nilagirica, has been used for centuries, to overcome various medical disorders. So, to concur with the situation, it will require new and more efficient solutions, technologies, and products. Present pretreatment with ultra-high-diluted biomedicines-Cina, prepared from the flowering meristems of Artemisia nilagirica (Clarke) pamp, mixed with water at an extremely low dose, were applied by foliar spray once daily for 15 days @ 10 ml/plant, against naturally occurring, root-knot-, leaf spot-, powdery mildew-, mosaic- and tukra- mulberry diseases, in field trials and silkworms rearing. Pretreatment-investigations have revealed that ultra-high-diluted-Cina, highly effective in ameliorating different mulberry-diseases by inducing their natural defense-response against pathogens-infection and leaving no residual-toxicity in the leaves to affect the growth of silkworms also. It can be concluded that the ultra-high-diluted, eco-friendly easily-available, easily applicable-Cina, at an extremely low dose, not only used as a potential-biomedical-drug against various plant-diseases, by inducing natural-defense- response, but also, it may be effective against COVID-19 for vaccinations and clinical trials by boosting the natural immune system for the improvement of Science and Technology communication cost-effectiveness green-economy and biodiversity conservations as well as bio-applications issues. And the future clinical-scientists develop all aspects of clinical-case-reports by publishing in the appropriate medical research archives, with the sincere hope that this crisis will soon be over and the whole world, may fight against the COVID-19 war, retaining normal forms of human civilizations globally.
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„Research Progress on Chinese Silkworm Germplasm Resources and Variety Breeding“. International Journal of Biology and Genetics, 24.01.2020, 1–11. http://dx.doi.org/10.31829/2692-4242/biogen2020-3(1)-103.

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As the birthplace of the world’s sericulture and the original center of silkworms, China has a long history of silkworm breeding and widely distributed sericultural areas. After long- term artificial selection and natural elimination, silkworm varieties have been differentiated and multiplied, making China abundant in silkworm germplasm resources. We have summarized the research actualities of Chinese silkworm germplasm resources as follows: at present, there are more than 4,500 silkworm germplasm resources, which are stored in 32 scientific research and teaching institutions in 27 provinces and cities of China. The resources fall into several major categories, under which are local varieties, improved varieties, imported varieties, multivoltine varieties, germplasm innovation materials and basic materials, gene mutation systems, tester strains and near-isogenic lines. By use of various germplasm resources, the People’s Republic of China had bred 204 new silkworm varieties by 2010 since its founding. According to usage, these resources are divided into 103 varieties for spring rearing and spring-autumn rearing, 85 varieties for summer-autumn rearing and 16 varieties for specialpurpose rearing. Some of these varieties were as transient as a fleeting cloud, whereas some others have become classics and made outstanding contributions to the development of China’s sericulture.
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„IoT Based Automated Sericulture System“. International Journal of Recent Technology and Engineering 8, Nr. 2 (30.07.2019): 6489–92. http://dx.doi.org/10.35940/ijrte.b1801.078219.

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Sericulture denotes to the rearing of silkworm to produce silk. Parameters like Temperature, Humidity and Light intensity are the important factors in the progression of silkworms and suitable encouraging must to be done according to the requisites in every stage. Environmental variations assume as the important part in the growth and development of silkworm. Sericulture is the important occupation in India and the techniques used by the agriculturists are yet outdated. Hereafter there is the need of developing modernization in sericulture cultivate. This endeavor gives a thought of providing automation in sericulture cultivate. The model goals at making use of developing technology that is IOT and smart Sericulture using automation. Observing environmental parameters of the silkworm rearing house is the most important aspect to improve vintage of the silk. The specialty of this model comprises enhancement of a system which can observe temperature, humidity, light power through sensors using NodeMCU and in case of any variations in the parameters send a notification on the user mobile application using internet connection. This system permits for data assessment and scheduling to be programmed through the arduino IDE software.
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Tejashwini.K.Bidari, Smita.N.Melagiri, Ranjita.R.Jamakhandi, Rekha Malipatil und Supanna.S.Shiraguppe. „DEVELOPMENT OF ADVANCED AUTOMATION SYSTEM FOR SILKWORM REARING HOUSE“. international journal of engineering technology and management sciences, 28.07.2022, 70–74. http://dx.doi.org/10.46647/ijetms.2022.v06i04.0013.

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Sericulture means rearing if silkworm to produce silk. Silkworm rearing is difficult and time taking process .the parameter like temperature, humidity and light intensity plays an important role is silkworm rearing . This project helps in observing environmental parameter of silkworm rearing house using NodeMCU. And also can control the light, cooler, heater, exhaust fan. Get the same data Blynk App.
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Sutiarso, Lilik, Atris Suyantohadi, Hari Purwanto und Radi Radi. „Uji Kinerja Teknologi Kontrol Tepat Guna untuk Peningkatan Kualitas Produksi Sutera Alam“. agriTECH 26, Nr. 4 (01.09.2014). http://dx.doi.org/10.22146/agritech.9484.

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The world demand of raw-silk provides a great opportunity to the development of raw-silk production in Yogyakarta. Recently, only 21% of the overall world demand of raw-silk is fulfilled, whereas Indonesia contributes only 0.1% per year. The main problem is the lack of quality of raw-silk. The optimum growth of silkworm depends on micro environments, i.e. temperature, humidity, aeration, and light intensity. The research aimed at designing an automated “on/off” control technology in the silkworm rearing environmental monitoring in the farming system, while the expected result was high-grade quality of cocoon. In the research, two different conditions of silkworm growing environments were compared, i.e. controlled environment (in the rearing box) and uncontrolled environment. The result indicated that there was increase in the quality of cocoon. Test of cocoons in laboratory showed that the average thickness of cocoons in controlled rearing environment and in rearing environment was 0.033 cm and 0.029 cm, respectively. The percentage of cocoons in controlled rearing environment was higher than cocoons in normal environment.
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24

RAVIKUMAR, J., P. SAMUTHIRAVELU, M. TILAK, L. HEMANT KUMAR und BHUVANESHWARI T. „BIO-COMPOSTING OF SERI-FARM RESIDUES BY TRICHODERMA VIRIDE“. Asian Journal of Microbiology, Biotechnology and Environmental Sciences, 30.06.2022, 383–86. http://dx.doi.org/10.53550/ajmbes.2022.v24i02.029.

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With a view to minimize the consumption of chemical fertilizers, farming community should beable to produce and apply organic manures as part of Integrated Plant Nutrition System for reducing costof production of their produce. Adequate quantity of farmyard manure could not be produced due todwindling population of cattle wealth in recent years. Hence, bio-composting is the best option to utilize on farmwastes effectively for nutrient recycling and soil health improvement. Hence, a study on compostingof sericultural residues by using Trichoderma viride was undertaken at 6 farm holdings in Avathanapatti and7 farm holdings at Kasiripalli / Gollapalli in Krishnagiri district of Tamil Nadu. The objectives were to studymulberry growth parameters by using the compost prepared by mediation of T. viride and its impact onsilkworm rearing. A quantity of 1 kg of inoculum was mixed with one ton of moistened Seri residue. Thedecomposition was completed in 90 days after inoculation. Thus prepared compost was applied to mulberryand observations were made on growth parameters such as plant height, biomass, leaf yield, shoot weightand leaf shoot ratio and silkworm rearing. The results of the present study revealed that application ofcompost prepared by using T. viride resulted in improvement of biomass and leaf yield besides plant heightin the compost treated plots of both the villages when compared to control. The impact on silkworm rearingwas found better with all the rearing parameters like single larval weight, single shell weight, and singlecocoon weight and shell ratio percentage better besides improvement in cocoon yield.
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Harsha R, Prithvi Veera B, Rohan M.N und Hemanth Chandra N. „Survey on Sericulture: An IOT-based Cocoon Worms Monitoring for Disease Identification and Management for Quality Silk Rearing.“ International Journal of Advanced Research in Science, Communication and Technology, 06.02.2024, 235–44. http://dx.doi.org/10.48175/ijarsct-15333.

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The sericulture industry in India, plays a vital role in the economy, with silk production contributing significantly to the country's textile sector. However, the industry faces challenges due to the detrimental impact of diseases on silk production. To address this issue, this project proposes a comprehensive monitoring system that integrates sensors for temperature, humidity, and light levels, alongside machine learning algorithms for the early detection of common silkworm diseases such as pebrine, flacherie, etc. By ensuring optimal rearing conditions and proactively managing disease outbreaks, the model aims to minimize production losses and enhance silk yield. Given the importance of silk in India's textile industry, increasing yield is crucial for meeting domestic demand, promoting exports, and bolstering economic growth. Through the adoption of advanced technologies and proactive disease management strategies, this project seeks to strengthen the sericulture sector and secure a sustainable future for silk production in India
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Caccam, Mabel, und Teodoro Mendoza. „Improving Mulberry (Morus alba L.) Leaf Yield and Quality to Increase Silkworm Productivity in Northern Luzon, Philippines“. Annals of Tropical Research, 07.04.2015, 1–25. http://dx.doi.org/10.32945/atr3711.2015.

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Cocoon silk, a high priced fabric, should be produced in large quantities to meet local and international demands using sustainable farming practices. To determine the effects of planting systems and agroecosystems manipulations on the mulberry growth, leaf yield, and quality for silk worm rearing, six agroecosystems manipulations using pit planting, organic manuring, inorganic fertilization, green and green leaf manuring were evaluated and the best alternative to increase production was selected. Pit planting method and fertilized with any of the following: (1) 100-5050 kg NPK/ha + 10 tons manure + green manure + mulch (LEISAI); (2) 5050-50 kg NPK/ha + 10 tons manures + green + green leaf manure + mulch (LEISA II); and (3) 10 tons manure + green manure + green leaf manure + mulch (Organic Farming I) gave higher mulberry leaf yields (taller mulberry plants, longer shoots, heavier single leaf weights), higher protein contents, and acceptable range of moisture (high moisture contents for young-age worms and low moisture contents for late-age silkworms). The use of sustainable and organic farming techniques can be a good alternative to conventional farming to improve the productivity of sericulture farms.
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