Relevant bibliographies by topics / Germplasm collections

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

Academic literature on the topic 'Germplasm collections'

Author: Grafiati
Published: 4 June 2025
Last updated: 1 August 2025

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Journal articles on the topic "Germplasm collections"

1

Anglin, Noelle L., Peter Wenzl, Vania Azevedo, Charlotte Lusty, David Ellis, and Dongying Gao. "Genotyping Genebank Collections: Strategic Approaches and Considerations for Optimal Collection Management." Plants 14, no. 2 (2025): 252. https://doi.org/10.3390/plants14020252.

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The maintenance of plant germplasm and its genetic diversity is critical to preserving and making it available for food security, so this invaluable diversity is not permanently lost due to population growth and development, climate change, or changing needs from the growers and/or the marketplace. There are numerous genebanks worldwide that serve to preserve valuable plant germplasm for humankind’s future and to serve as a resource for research, breeding, and training. The United States Department of Agriculture (USDA) National Plant Germplasm System (NPGS) and the Consultative Group for Inte
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Nienhuis, James, Julie Rodriguez, Wilber Phillips, Peter Hanson, and Liliway Engle. "552 Comparison of Genetic Diversity in between Two Germplasm Banks Containing Lycopersicon esculentum Accessions." HortScience 35, no. 3 (2000): 491A—491. http://dx.doi.org/10.21273/hortsci.35.3.491a.

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Worldwide, there are cuurently more than 60 germplasm banks that contain tomato (Lycopersicon esculentum) collections ranging is size from a few dozen to several thousands of accessions. In the utilization of these genetic resources sampling from only one germplasm bank may result in limiting available genetic diversity, whereas sampling from several germplasm banks may result in unnecessary redundancy. The current lack of knowledge regarding the relative magnitudes of genetic diversity contained within different collections makes it difficult to develop a core collection that maximizes geneti
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Namkoong, Gene. "Sampling for Germplasm Collections." HortScience 23, no. 1 (1988): 79–81. http://dx.doi.org/10.21273/hortsci.23.1.79.

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Abstract The person who samples for germplasm collections occupies a very narrow temporal interface between the genetic resources that history has left as our endowment, and the potential uses of those resources with which we endow the future. It is a narrow interface because the genetic resource is eroding rapidly, and because our future needs are large and unpredictable. Given the structural complexity of most plant populations and the many possible ways that they may be used in the future, it is obviously impossible to prescribe simple, optimal sampling schemes for all species. However, a s
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Saha, Sajal, Deepa Bhadana, Pankaj Kumar Shah, et al. "Genoplasmics: Advancing Plant Germplasm Research through Genomics." International Journal of Plant & Soil Science 35, no. 21 (2023): 106–16. http://dx.doi.org/10.9734/ijpss/2023/v35i213951.

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Plant genetic resources (PGR) are crucial for crop improvement programs. The National Genebank (NGB) at ICAR-NBPGR is responsible for collecting, conserving, and facilitating the utilization of genetic diversity in crop plants. Plant germplasm forms the foundation for plant genetic improvement. Extensive germplasm collections have been amassed and stored, presenting the challenge of effectively harnessing and exploiting this valuable resource. Genomics-based plant germplasm research (GPGR), or genoplasmics, is an emerging interdisciplinary field that applies genomic principles and methods to g
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Zhu, Yunzheng, Deyang Liang, Zejun Song, Yi Tan, Xiaolan Guo, and Delu Wang. "Genetic Diversity Analysis and Core Germplasm Collection Construction of Camellia oleifera Based on Fruit Phenotype and SSR Data." Genes 13, no. 12 (2022): 2351. http://dx.doi.org/10.3390/genes13122351.

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Many Camellia oleifera germplasm resources were collected from Guizhou Province, but the fruit morphological variation and genetic diversity of C. oleifera germplasm resources remain unclear. The genetic diversity of C. oleifera germplasms resources in Guizhou was studied based on fruit traits and simple sequence repeat (SSR) molecular markers to build a core collection. This paper aims to provide a scientific basis for the collection, management, development, and utilization of C. oleifera resources in Guizhou province. The variation coefficients among and within varieties of seven fruit phen
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Ijara, Girma Ashe. "Collection and method of developing core collection in genetic resource - A Review." International Journal of Current Research in Biosciences and Plant Biology 10, no. 8 (2023): 8–14. http://dx.doi.org/10.20546/ijcrbp.2023.1008.002.

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Agriculture today is characterized by a sharp reduction in the diversity of cultivated plant due to human and natural event. Plant breeding contributes to decrease of crop diversity through expansion of genetically homogeneous cultivars and promotion of few widely adapted varieties. The size of germplasm collections frequently restricts access to them and consequently, their use in plant breeding and research. Therefore management and use of germplasm collections could be enhanced if a limited number of genetically diverse accessions within the collection were selected as the core collection.
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Nelson, Randall L. "Managing self-pollinated germplasm collections to maximize utilization." Plant Genetic Resources 9, no. 01 (2011): 123–33. http://dx.doi.org/10.1017/s147926211000047x.

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The primary mission of germplasm collections is to preserve genetic diversity, but germplasm is preserved so that it can be used. Historically, the standard practice is that all germplasm accessions should be maintained as collected, so that even self-pollinated accessions are maintained as heterogeneous seed lots. In theory, this seems like an ideal strategy for preserving genetic diversity, but in practice, it is simply not workable. Heterogeneous accessions are in constant risk of change and loss. It is possible to mitigate the risk factors, but they can only be lessened and not eliminated.
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Clark, R. L., H. L. Shands, P. K. Bretting, and S. A. Eberhart. "Managing Large Diverse Germplasm Collections." Crop Science 37, no. 1 (1997): 1–6. http://dx.doi.org/10.2135/cropsci1997.0011183x003700010001x.

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Nguyen Xuan, Viet, Anh Pham Thi Viet, Hoa Nguyen Thi Quynh, Mai Le Thi Tuyet, Huyen Vu Thi Bich, and Thuy Le Thi. "Study on chromosome number and karyotype in the north taro germplasm preserved at the Plant Resources Center - Vietnamese Academy of Agricultural Sciences." Journal of Science Natural Science 66, no. 4F (2021): 144–51. http://dx.doi.org/10.18173/2354-1059.2021-0077.

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Chomosome number and karyotypes of the North taro germplasm collections maintained at The Plant Resources Center were studied for the database of taro germplasms and to assess genetic diversity in taro (Colocasia esculenta Schott) in Vietnam. The results showed that, most of the 250 accessions of collections discovered are diploid (2n = 2x = 28), accounting for 77,2%, only 22,8% of the germplasm collections are triploid (2n = 3x = 42). The frequency of distribution of diploid and triploid taros between the natural geographic sub-region of the Northwest mountainous and the Northeastern mountain
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Perry, Mark, Allan K. Stoner, and Jimmie D. Mowder. "Plant Germplasm Information Management System: Germplasm Resources Information Network." HortScience 23, no. 1 (1988): 57–60. http://dx.doi.org/10.21273/hortsci.23.1.57.

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Abstract A critically important aspect of the management of genetic resources is concurrent management of information pertinent to the preserved seeds or plant materials. An effective information system should: a) aid curators of collections by providing current information on inventories, exchange activities, etc.; b) perm it germplasm users to have rapid access to botanical and horticultural information about specific accessions and thereby encourage more effective use of plant germplasm; and c) allow personnel and organizations within and between countries to coordinate activities related t
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Dissertations / Theses on the topic "Germplasm collections"

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Harch, Bronwyn Delveen. "Statistical evaluation of germplasm collections." Thesis, University of Queensland, 1996. http://library.uq.edu.au/search/q?author=harch+bronwyn+delveen&title=statistical+evaluation+germplasm+collections&submit=Search.

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Peeters, John P. "Crop variability and its exploitation through germplasm collections : an assessment based on barley." Thesis, University of Cambridge, 1988. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.280093.

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Montejo, Domínguez Luz de Maria Albertina. "Rust Resistance in the Guatemalan Climbing Bean Germplasm Collection." Thesis, North Dakota State University, 2017. https://hdl.handle.net/10365/28701.

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Common bean is the main source of protein, fiber, and iron for Guatemalan's poorest households; however, bean rust can cause up to 100% yield losses. There is limited information about bean rust in Guatemala, especially at mid-altitude highlands. During 2015, 23 bean rust samples were collected in the Western Guatemalan Highlands and 17 isolates where characterized, as a result, races 63-1 and 31-1 were identified. Those were used to evaluate rust resistance by using 372 Guatemalan climbing beans. In total, 82% of accessions were resistant to race 63-1, 86% to race 31-1, and 90% to race 20-3.
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Montejo, Dom?nguez Luz de Maria Albertina. "Rust Resistance in the Guatemalan Climbing Bean Germplasm Collection." Thesis, North Dakota State University, 2017. https://hdl.handle.net/10365/28701.

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Common bean is the main source of protein, fiber, and iron for Guatemalan's poorest households; however, bean rust can cause up to 100% yield losses. There is limited information about bean rust in Guatemala, especially at mid-altitude highlands. During 2015, 23 bean rust samples were collected in the Western Guatemalan Highlands and 17 isolates where characterized, as a result, races 63-1 and 31-1 were identified. Those were used to evaluate rust resistance by using 372 Guatemalan climbing beans. In total, 82% of accessions were resistant to race 63-1, 86% to race 31-1, and 90% to race 20-3.
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Battistini, Elena <1979&gt. "Genetic variability and seed vigour in a sunflower germplasm collection." Doctoral thesis, Alma Mater Studiorum - Università di Bologna, 2011. http://amsdottorato.unibo.it/3975/1/Battistini_Elena_tesi.pdf.

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Battistini, Elena <1979&gt. "Genetic variability and seed vigour in a sunflower germplasm collection." Doctoral thesis, Alma Mater Studiorum - Università di Bologna, 2011. http://amsdottorato.unibo.it/3975/.

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Klongsiriwet, Chaweewan. "Phytochemical analysis of a willow germplasm collection and its pharmacological activities." Thesis, University of Reading, 2016. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.750386.

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Willow (Salix spp.) is a rich source of naturally occurring bioactive compounds. This study focussed specifically on exploring the condensed tannins (CT) in the National Willow Collection, which is a unique germplasm collection held at Rothamsted Research. Willow leaves were analysed by two different tannin methods, thiolysis and acid-butanol-acetone, in order to evaluate their suitability for assessing inter-accession variation and to identify accessions with a potential medicinal use. This is the first report of the tannin contents and compositions of a willow germplasm collection. Large var
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Zale, Peter J. "GERMPLASM COLLECTION, CHARACTERIZATION, AND ENHANCEMENT OF EASTERN PHLOX SPECIES." The Ohio State University, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=osu1417694536.

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Shetty, Nischit Vasanth. "Evaluation of the cucumber germplasm collection for fruit yield and quality." Raleigh, NC : North Carolina State University, 1999. http://www.lib.ncsu.edu/etd/public/etd-0261460100450/etd.pdf.

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Dukic, Snezana. "Development of an in vitro germplasm collection of Saccharum spp. hybrid clones." Thesis, Queensland University of Technology, 1995. https://eprints.qut.edu.au/36938/1/36938_Dukic_1995.pdf.

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An in vitro method for the establishment and storage of over 200 Saccharum spp. hybrid clones was developed that involved only 1 medium for shoot development and multiplication, without decontamination procedures. Apical buds from the axils of developing leaves surrounding the apical meristem were cultured on medium containing the plant growth regulators benzylamino purine and kinetin which regenerated multiple shoots. Shoots transferred to a medium containing naphthalene acetic acid and 60 g L"1 sucrose, developed roots. In vitro plants were transferred to a half strength Murashige and Skoog
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Books on the topic "Germplasm collections"

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Juvik, G. A. Directory of germplasm collections. IBPGR Secretariat, 1985.

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Bettencourt, E. Directory of germplasm collections. IBPGR, 1992.

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Watanabe, I. Biofertilizer germplasm collections at IRRI. International Rice Research Institute, 1992.

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Juvik, Gail A. Directory of germplasm collections: II. Food legumes. IBPGR Secretariat, 1985.

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International Livestock Centre for Africa. Soil Science & Plant Nutrition Section. Rhizobium germplasm resources at ILCA. Soil Science & Plant Nutrition Section, International Livestock Centre for Africa, 1992.

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Bernard, Richard L. USDA soybean germplasm collection inventory. U.S. Dept. of Agriculture, Agriculture Research Service, College of Agriculture, University of Illinois at Urbana-Champaign, 1987.

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Bettencourt, E. Directory of European institutions holding crop genetic resources collections. 3rd ed. IBPGR, 1986.

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Pundir, R. P. S. ICRISAT chickpea germplasm catalog: Passport information. ICRISAT, 1988.

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Remanandan, P. ICRISAT pigeonpea germplasm catalog: Passport information. International Crops Research Institute for the Semi-Arid Tropics, 1988.

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Remanandan, P. ICRISAT pigeonpea germplasm catalog: Passport information. ICRISAT, 1988.

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Book chapters on the topic "Germplasm collections"

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Petersen, Gitte, and Ole Seberg. "Screening Germplasm Collections." In Molecular Tools for Screening Biodiversity. Springer Netherlands, 1998. http://dx.doi.org/10.1007/978-94-009-0019-6_71.

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Maxted, N., W. Erskine, L. D. Robertson, and A. N. Asthana. "Are Our Germplasm Collections Museum Items?" In Linking Research and Marketing Opportunities for Pulses in the 21st Century. Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4385-1_56.

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Hawkes, J. G., N. Maxted, and B. V. Ford-Lloyd. "World Ex Situ Collections of Germplasm." In The Ex Situ Conservation of Plant Genetic Resources. Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4136-9_8.

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Chang, Te-Tzu, Sherl M. Dietz, and Melvin N. Westwood. "Management and use of plant germplasm collections." In Biotic Diversity and Germplasm Preservation, Global Imperatives. Springer Netherlands, 1989. http://dx.doi.org/10.1007/978-94-009-2333-1_8.

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Mascher, Martin, Kazuhiro Sato, and Brian Steffenson. "Genomics Approaches to Mining Barley Germplasm Collections." In Compendium of Plant Genomes. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-92528-8_11.

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Shaw, Paul D., Stephan Weise, Matija Obreza, et al. "Database Solutions for Genebanks and Germplasm Collections." In Plant Genetic Resources for the 21st Century. Apple Academic Press, 2022. http://dx.doi.org/10.1201/9781003302957-19.

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Skovmand, B., M. P. Reynolds, and I. H. Delacy. "Mining Wheat Germplasm Collections for Yield Enhancing Traits." In Wheat in a Global Environment. Springer Netherlands, 2001. http://dx.doi.org/10.1007/978-94-017-3674-9_102.

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Ghamkhar, Kioumars. "Climate Change and Adaptation: Planning Future Germplasm Collections." In Plant Genetic Resources for the 21st Century. Apple Academic Press, 2022. http://dx.doi.org/10.1201/9781003302957-13.

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Bramel, P. J. "Assessing germplasm collections for traits useful in plant nutrition." In Food Security in Nutrient-Stressed Environments: Exploiting Plants’ Genetic Capabilities. Springer Netherlands, 2002. http://dx.doi.org/10.1007/978-94-017-1570-6_22.

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Upadhyaya, Hari D., Sangam L. Dwivedi, and Shivali Sharma. "Managing and Discovering Agronomically Beneficial Traits in Chickpea Germplasm Collections." In Compendium of Plant Genomes. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-66117-9_5.

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Conference papers on the topic "Germplasm collections"

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"Cryopreservation technologies for germplasm in vitro collections." In Management and utilization of field gene banks and in-vitro collections. Food and Fertilizer Technology Center for the Asian and Pacific Region, 2011. https://doi.org/10.56669/ailx5152.

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"Germplasm conservation and related phytosanitary measures." In Management and utilization of field gene banks and in-vitro collections. Food and Fertilizer Technology Center for the Asian and Pacific Region, 2011. https://doi.org/10.56669/etmz4456.

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"Acquisition and entry of fruit germplasm into the collection- collecting and maintenance." In Management and utilization of field gene banks and in-vitro collections. Food and Fertilizer Technology Center for the Asian and Pacific Region, 2011. https://doi.org/10.56669/odjr3425.

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"Detection, diagnosis and elimination of plant viruses for vegetatively propagated germplasm." In Management and utilization of field gene banks and in-vitro collections. Food and Fertilizer Technology Center for the Asian and Pacific Region, 2011. https://doi.org/10.56669/slqg2321.

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"Tissue culture technologies for germplasm in vitro conservation – principles and exercise." In Management and utilization of field gene banks and in-vitro collections. Food and Fertilizer Technology Center for the Asian and Pacific Region, 2011. https://doi.org/10.56669/dbbx9709.

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"Collecting and maintenance of fruit and vegetatively propagated vegetable germplasm in FTHES field genebank." In Management and utilization of field gene banks and in-vitro collections. Food and Fertilizer Technology Center for the Asian and Pacific Region, 2011. https://doi.org/10.56669/tznw6930.

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Manfio, Candida Elisa, Daniel Pedrosa Alves, and Gerson Wamser. "Selection of promising materials for sweet potato crosses from a germplasm bank." In III SEVEN INTERNATIONAL MULTIDISCIPLINARY CONGRESS. Seven Congress, 2023. http://dx.doi.org/10.56238/seveniiimulti2023-186.

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The success of a breeding program is based on the existence of genetic variability of populations. Epagri's sweet potato germplasm bank began in 1985 with several collections throughout the state of Santa Catarina. later some introductions of Peru, Embrapa and a collection with several accesses of the research unit of Epagri of Caçador were made. From 2001 to 2003, crosses were made between the existing accessions generating several new genotypes. In this way the sweet potato BAG has already registered more than 700 hits, but currently, due to the losses, the number is reduced to 128. The obje
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Sung, JS, YJ Jung, AD Assefa, et al. "Variability of total phenolic content and main phenolic compounds in the germplasm collections of Perilla frutescens leaves." In 67th International Congress and Annual Meeting of the Society for Medicinal Plant and Natural Product Research (GA) in cooperation with the French Society of Pharmacognosy AFERP. © Georg Thieme Verlag KG, 2019. http://dx.doi.org/10.1055/s-0039-3400415.

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Korlateanu, L., Lolita Melian, Victoria Mihăilă, Alina Ganea, and M. Pitiul. "Study of the storage potential of tomato (Solanum lycopersicum l.) collection samples under Ex situ conservation." In Scientific International Symposium “Advanced Biotechnologies - Achievements and Prospects” (VIth Edition). Institute of Genetics, Physiology and Plant Protection, 2022. http://dx.doi.org/10.53040/abap6.2022.93.

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In long-term ex situ conservation of plant germplasm in genetic banks, the main task is to pre-serve the viability of the seeds, since as a result of aging the seeds gradually lose their germination capacity and genetic homogeneity [6]. Therefore, the study of the storage potential (SP) of seeds is a very important step for ex situ conservation of plant genetic resources, especially during long-term storage of collection accessions in a plant genetic bank. In recent years, the determination of this potential has been practiced in many plant genetic banks in different countries [2, 4]. In order
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Srikanth, K., M. Neupane, M. A. Jaafar, et al. "243. Genetic diversity and inbreeding in US Jersey population and germplasm collection." In World Congress on Genetics Applied to Livestock Production. Wageningen Academic Publishers, 2022. http://dx.doi.org/10.3920/978-90-8686-940-4_243.

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Reports on the topic "Germplasm collections"

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Todd, James, and Jack C. Comstock. Discovering the desirable alleles contributing to the lignocellulosic biomass traits in saccharum germplasm collections for energy cane improvement. Office of Scientific and Technical Information (OSTI), 2015. http://dx.doi.org/10.2172/1226911.

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Wang, Jianping, and Hardev Sandhu. Discovering the desirable alleles contributing to the lignocellulosic biomass traits in Saccharum germplasm collections for energy cane improvement. Office of Scientific and Technical Information (OSTI), 2017. http://dx.doi.org/10.2172/1347688.

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Groenink, Wouter, and Roel Hoekstra. Report of a Spinacia turkestanica collecting expedition to Uzbekistan : Daily itinerary, collected germplasm and data. Wageningen University & Research, Centre for Genetic Resources (CGN), 2024. http://dx.doi.org/10.18174/649754.

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Li, Li, Joseph Burger, Nurit Katzir, Yaakov Tadmor, Ari Schaffer, and Zhangjun Fei. Characterization of the Or regulatory network in melon for carotenoid biofortification in food crops. United States Department of Agriculture, 2015. http://dx.doi.org/10.32747/2015.7594408.bard.

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The general goals of the BARD research grant US-4423-11 are to understand how Or regulates carotenoid accumulation and to reveal novel strategies for breeding agricultural crops with enhanced β-carotene level. The original objectives are: 1) to identify the genes and proteins in the Or regulatory network in melon; 2) to genetically and molecularly characterize the candidate genes; and 3) to define genetic and functional allelic variation of these genes in a representative germplasm collection of the C. melo species. Or was found by the US group to causes provitamin A accumulation in chromoplas
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