QUINOA

Accession
IPR
Pedigree

Accession Citations
  • Barnett, O. W. & P. B. Gibson. 1975. Identification and prevalence of white clover viruses and the resistance of Trifolium species to these viruses. Crop Sci. (Madison) 15:32-37. Note: The donor used this accession. Number of accession(s) cited: 1
  • Bazile, D., C. Pulvento, A. Verniau, M. S. Al-Nusairi, D. Ba, J. Breidy, L. Hassan, M. I. Mohammed, O. Mambetov, M. Otambekova, N. A. Sepahvand, A. Shams, D. Souici, K. Miri, & S. Padulosi. 2016. Worldwide evaluations of quinoa: Preliminary results from post International Year of Quinoa FAO projects in nine countries. Front. Plant Sci. 7:850. DOI: 10.3389/fpls.2016.00850. Number of accession(s) cited: 8
  • Bennet, C. W. 1960. Sugar beet yellows disease in the United States. Techn. Bull. U.S.D.A. 1218. Number of accession(s) cited: 1
  • Bhargava, A., S. Shukla, & D. Ohri. 2006. Implications of direct and indirect effects of different traits on foliage yield in Chenopodium album. J. Med. Aromat. Pl. Sci. 28:11-14. Number of accession(s) cited: 1
  • Bhargava, A., S. Shukla, & D. Ohri. 2006. Karyotypic studies on some cultivated and wild species of Chenopodium (Chenopodiaceae). Genet. Resources Crop Evol. 53:1309-1320. DOI: 10.1007/s10722-005-3879-8. Number of accession(s) cited: 6
  • Bhargava, A., S. Shukla, & D. Ohri. 2007. Evaluation of foliage and leaf quality traits in Chenopodium spp. in multiyear trials. Euphytica 153:199-213. DOI: 10.1007/s10681-006-9255-8. Note: Lists this accession as IC 107295. Number of accession(s) cited: 7
  • Bhargava, A., S. Shukla, & D. Ohri. 2007. Genome size variation in some culivated and wild species of Chenopodium (Chenopodiaceae). Caryologia 60:245-250. Number of accession(s) cited: 28
  • Bilal Hafeeez, M., S. Iqbal, Y. Li, M. Sohail Saddiq, S. M. A. Basra, H. Zhang, N. Zahra, M. Z. Akram, D. Bertero, & R. N. Curti. 2022. Assessment of phenotypic diversity in the USDA collection of quinoa links genotypic adaptation to germplasm origin. In: USDA, NRCS, United States Department of Agriculture, Natural Resources Conservation Service's PLANTS database (on-line resource). 11:738. DOI: 10.3390/plants11060738. Note: Cited as: Ames 13721 Number of accession(s) cited: 117
  • Brenner, D. M., H. E. Bockelman, & K. A. Williams. 2019. North American Wild Relatives of Grain Crops. In: Green, S. L. et al., North American crop wild relatives. Volume 2. Important species. 2:41-82. DOI: 10.1007/978-3-319-97121-6_2. Number of accession(s) cited: 5
  • Carillo Ocampo, A. & E. M. Engleman. 1994. Bol. Soc. Bot. México 54:17-34. Note: listed as 'Santa Elena' on page 18 Number of accession(s) cited: 1
  • Ceccato D., D. Bertero, D. Batlla, & B. Galati. 2015. Structural aspects of dormancy in quinoa (Chenopodium quinoa): importance and possible action mechanisms of the seed coat. Seed Sci. Res. 25:267-275. DOI: 10.1017/S096025851500015X. Note: listed as: 2-Want Number of accession(s) cited: 2
  • Ceccato, D. V., H. D. Bertero, & D. Batlla. 2011. Environmental control of dormancy in quinoa (Chenopodium quinoa) seeds: two potential genetic resources for pre-harvest sprouting tolerance. Seed Sci. Res. 21:133-141. DOI: 10.1017/S096025851100002X. Note: listed as: 2-Want Seed Science Research Number of accession(s) cited: 2
  • Cepeda-Cornejo, V., D. C. Brown, G. Palomino, E. de la Cruz, M. Fogarty, P. J. Maughan, & E. N. Jellen. 2016. Genetic variation of the granule-bound starch synthase 1 (GBSS1) genes in waxy and non-waxy accessions of Chenopodium berlandieri ssp. Nuttalliae from Central Mexico. Pl. Genet. Resources Charact. Util. 14(1):57-66. DOI: 10.1017/S1479262115000076. Note: Characterizes accessions for waxy or non-waxy Number of accession(s) cited: 8
  • Christensen, S. A., D. B. Pratt, C. Pratt, P. T. Nelson, M. R. Stevens, E. N. Jellen, C. E. Coleman, D. J. Fairbanks, A. Bonifacio, & P. J. Maughan. 2007. Assessment of genetic diversity in the USDA and CIP-FAO international nursery collections of quinoa (Chenopodium quinoa Willd.) using microsatellite markers. Pl. Genet. Resources Charact. Util. 5:82-95. Note: Sample ID/name E1 Number of accession(s) cited: 123
  • Duvauchelle, D. 2009. Plant fact sheet for aweoweo (Chenopodium oahuense (Meyen) Aellen). USDA-Natural Resources Conservation Service, Hawaii Plant Materials Center, Hoolehua, Hawaii 96729 Number of accession(s) cited: 1
  • Emrani, M., M. Hasler, D. S. R. Patiranage, M. Nathaly, E. Rey, & C. Jung. 2020. An efficient method to produce segregating populations in quinoa (Chenopodium quinoa). Pl. Breed. (New York) 139:1190-1200. DOI: 10.1111/pbr.12873. Note: entered as Pasankalla Number of accession(s) cited: 8
  • Fogg, W. H. 1976. Setaria italica; its origins and process of cereal domestication in Asia Dept. of Geography, University of Oregon, Eugene, Oregon. Note: PhD dissertation Number of accession(s) cited: 2
  • Fuentes-Bazan, S., G. Mansion, & T. Borsch. 2012. Towards a species level tree of the globally diverse genus Chenopodium (Chenopodiaceae). Molec. Phylogenet. Evol. 62:359-374. Number of accession(s) cited: 17
  • Fuentes-Bazan, S., P. Uotila, & T. Borsch. 2012. A novel phylogeny-based generic classification for Chenopodium sensu lato, and a tribal rearrangement of Chenopodioideae (Chenopodiaceae). Willdenowia 42:5-24. Number of accession(s) cited: 9
  • Fulton, R. W. 1966. Mechanical transmission of viruses of woody plants. Annual Rev. Phytopathol. 4:79-102. DOI: 10.1146/annurev.py.04.090166.000455. Note: Citation provided by donor Number of accession(s) cited: 1
  • Gangopadhyay, G., S. Das, & K. Mukherjee. 2002. Speciation in Chenopodium in West Bengal, India. Genet. Resources Crop Evol. 49:503-510. Note: The hexaploid described in this paper may be similar to this accession. Number of accession(s) cited: 10
  • Golicz, A. A., U. Steinfort, H. Arya, M. B. Singh, & P. L. Bhalla. 2019. Analysis of the quinoa genome reveals conservation and divergence of the flowering pathways. Funct. Integr. Genomics 20:245-258. DOI: 10.1007/s10142-019-00711-1. Number of accession(s) cited: 1
  • Hauptli, H., R. L. Lutz, & S. K. Jain. 1980. Germ plasm exploration in Central and South America. Proceedings of the 2nd Amaranth Conference, Kutztown, PA, 13-14 September 1979 117-122. Note: Collections in 1979 Number of accession(s) cited: 5
  • Hinojosa, L., J. B. Matanguihan, & K. M. Murphy. 2019. Effect of high temperature on pollen morphology, plant growth and seed yield in quinoa (Chenopodium quinoa Willd.). J. Agron. Crop Sci. 205:33-45. DOI: 10.1111/jac.12302. Number of accession(s) cited: 2
  • Hinojosa, L., N. Kumar, K. S. Gill, & K. M. Murphy. 2019. Spectral reflectance indices and physiological parameters in quinoa under contrasting irrigation regimes. Crop Sci. (Madison) 59:1927-1944. DOI: 10.2135/cropsci2018.11.0711. Number of accession(s) cited: 6
  • Jarvis, D. E., Yung Shwen Ho, D. J. Lightfoot, S. M. Schmockel, Bo Li, T. J. A. Borm, H. Ohyanagi, K. Mineta, C. T. Michell, N. Saber, N. M. Kharbatia, R. R. Rupper, A. R. Sharp, N. Dally, B. A. Boughton, Yong H. Woo, Ge Gao, E. G. W. M. Schijlen, Xiujie Guo, A. A. Momin, S. Negrao, S. Al-Babili, C. Gehring, U. Roessner, C. Jung, K. Murphy, S. T. Arold, T. Gojobori, C. G. van der Linden, E. N. van Loo, E. N. Jellen, P. J. Maughan, & M. Tester. 2017. The genome of Chenopodium quinoa. Nature 542:307–312. DOI: 10.1038/nature21370. Note: sequenced Number of accession(s) cited: 1
  • Jarvis, D. E., Yung Shwen Ho, D. J. Lightfoot, S. M. Schmockel, Bo Li, T. J.A. Borm, Hajime Ohyanagi, Katsuhiko Mineta, C. T. Michell, N. Saber, N. M. Kharbatia, R. R. Rupper, A. R. Sharp, N. Dally, B. A. Boughton, Yong H. Woo, Ge Gao, E. G. W. M. Schijlen, Xiujie Guo, A. A. Momin, S. Negrao, S. Al-Babili, C. Gehring, U. Roessner, C. Jung, K. Murphy, S. T. Arold, T. Gojobori, C. G. van der Linden, E. N. van Loo, E. N. Jellen, P. J. Maughan, & M. Tester. 2017. The genome of Chenopodium quinoa. Nature 542:307–312. DOI: 10.1038/nature21370. Number of accession(s) cited: 5
  • Jellen, E. N., D. E. Jarvis, N. Benet-Pierce, & P.J. Maughan. 2021. Botanical context for domestication in North America. The Quinoa Genome. Compend. Plant Genomes 33-49. DOI: 10.1007/978-3-030-65237-1_3. Note: listed on page 47 Number of accession(s) cited: 37
  • Johnson, D. L. 1988. New grains and pseudograins. Advances in new crops. Timber Press, Portland Ore. Number of accession(s) cited: 1
  • Kaul, R. B. et al. 2006. The flora of Nebraska. Note: Page 334 probably the same as C. glaucum "having deltate leaves to 35 X 50 mm" which seems to be a new variety without a Latin variety name. Comment by David Brenner, October 2009. Number of accession(s) cited: 1
  • Kistler, L. & B. Shapiro. 2011. Ancient DNA confirms a local origin of domesticated chenopod in eastern North America. J. Archaeol. Sci. 38:3549-3554. DOI: 10.1016/j.jas.2011.08.023. Number of accession(s) cited: 7
  • Kolano, B., D. Siwinska, L. G. Pando, J. Szymanowska-Pulka, & J. Maluszynska. 2012. Genome size variation in Chenopodium quinoa (Chenopodiaceae). Pl. Syst. Evol. 298:251-255. DOI: 10.1007/s00606-011-0534-z. Number of accession(s) cited: 8
  • Kolano, B., H. Tomczak, R. Molewska, E. N. Jellen, & J. Maluszynska. 2012. Distribution of 5S and 35S rRNA gene sites in 34 Chenopodium species (Amaranthaceae). Bot. J. Linn. Soc. 170:220-231. Number of accession(s) cited: 18
  • LoPresti, E. F. 2014. Chenopod salt bladders deter insect herbivores. Oecologia 174:921-930. DOI: 10.1007/s00442-013-2827-0. Number of accession(s) cited: 10
  • Mangelson, H., D. E. Jarvis, P. Mollinedo, O. M. Rollano-Penaloza, V. D. Palma-Encinas, L. R. Gomez-Pando, E. N. Jellen, & P. J. Maughan. 2019. The genome of Chenopodium pallidicaule: An emerging Andean super grain. Applic. Pl. Sci. 7:e11300. DOI: 10.1002/aps3.11300. Number of accession(s) cited: 9
  • Matanguihan, J. B., P. J. Maughan, E. N. Jellen, & B. Kolano. 2015. Quinoa cytogenetics, molecular genitics, and diversity. Quinoa: Improvement and Sustainable Production. 112. Note: mentions BYU 803 Number of accession(s) cited: 1
  • Maughan, P. J., L. Chaney, D. J. Lightfoot, B. J. Cox, M. Tester, E. N. Jellen, & D. E. Jarvis. 2019. Mitochondrial and chloroplast genomes provide insights into the evolutionary origins of quinoa (Chenopodium quinoa Willd.). Sci. Rep. 9:185. DOI: 10.1038/s41598-018-36693-6. Note: mitochondrial and chloroplast genome sequenced Number of accession(s) cited: 8
  • Maughan, P.J., D. E. Jarvis, E. de la Cruz-Torres, K.E. Jaggi, H.C. Warner, A.K. Marcheschi, H.D. Bertero, L. Gomez-Pando, F. Fuentes, M.E. Mayta-Anco, R.Curti, E.Rey, M. Tester & E.N. Jellen. 2024. North American pitseed goosefoot (Chenopodium berlandieri) is a genetic resource to improve Andean quiona (C. quinoa). Sci. Rep. 14:12345 DOI: https://doi.org/10.1038/s41598-024-63106-8. www.nature.com/srep/ Number of accession(s) cited: 19
  • Munir, H., S. M. A. Basra, M. A. Cheema, & A. Wahid. 2011. Phenotypic flexibility in exotic quinoa (chenoopdium quinoa willd.) germplasm for seedling vigor and viability. Pakistan J. Agric. Sci. 45:255-261. Number of accession(s) cited: 25
  • Neff, E. 2017. Developing a molecular pipeline to identify chenopodium species in new england. Unpublished thesis. Number of accession(s) cited: 15
  • Pal, M. & S. Shukla. 1990. An hexaploid grain chenopod from Eastern Himalayas. Newsletter of Himalayan Botany No.8:12-14 Note: A copy was provided by the donors. Number of accession(s) cited: 1
  • Partap, T. & P. Kapoor. 1985. The Himalayan grain chenopods. II. Comparative morphology. Agric. Ecosyst. Environm. 14:201-220. Note: The information here matches well with the accession. Number of accession(s) cited: 2
  • Partap, T., B. D. Joshi, & N. W. Galwey. 1998. Chenopods. Chenopodium spp. In: International Plant Genetic Resources Institute (IPGRI), Promoting the conservation and use of underutilized and neglected crops. 22:1-67. Note: Summary of Himalayan grain Chenopodium information by the donor and co-authors. Number of accession(s) cited: 10
  • Pathan, S., F. Eivazi, B. Valliyodan, P. Kamalendu, N. Grato, & K. Clark. 2019. Nutritional composition of the green leaves of quinoa (Chenopodium quinoa Willd.). J. Food Res. 8:55-65. DOI: 10.5539/jfr.v8n6p55. Note: cited as Ames 13739 Number of accession(s) cited: 1
  • Pathan, S., G. Ndunguru & A.G. Ayele. 2024. Comparison of the nutritional composition of quinoa (Chenopodium quinoa Willd.) inflorescences, green leaves, and grains. In: Magness, J. R. et al., Food and feed crops of the United States. IR Bull. 1 4:72-81 DOI: https://doi.org/10.3390/crops4010006. Number of accession(s) cited: 3
  • Ruppel. E. G. 1969. Relative incidences of beet yellows and beet western yellows viruses in the Salt River Valley of Arizona, 1965-1968. J. Amer. Soc. Sugar Beet Technol. 15:553-555. Number of accession(s) cited: 1
  • Thorp, Jr., F., A. W. Deem, H. D. Harrington, & J. W. Tobiska. 1937. Suckleya suckleyana a poisonous plant. Colorado Technical Bulletin 22 Note: The foliage is a hazard to grazing livestock, especially in drying waterholes. The poison is hydrocyanic acid. Number of accession(s) cited: 1
  • Uyemoto, J. K. & R. M. Gilmer. 1972. Properties of tobaco necrosis virus strainsisolated from apple. Phytopathology 62:478-481. Note: Citation provided by donor. Number of accession(s) cited: 1
  • Uyemoto, J. K., A. C. Coheen, C. F. Luhn, & L. J. Petersen. 1976. Use of Chenopodium quinoa in indexing for grapevine fanleaf virus. Pl. Dis. Reporter 60(6):536-538. Note: Citation provided by donor. Number of accession(s) cited: 1
  • Uyemoto, J. K. 1975. Severe outbreak of virus-induced grapevind decline in cascade grapevines in New York. Pl. Dis. Reporter 59:98-101. Note: Citation provided by donor. Number of accession(s) cited: 1
  • Vargas, A., D. B. Elzinga, J. A. Rojas-Beltran, A. Bonifacio, B. Geary, M. R. Stevens, E. N. Jellen, & P. J. Maughan. 2011. Development and use of microsatellite markers for genetic diversity analysis of canahua (Chenopodium pallidicaule Aellen). Genet. Resources Crop Evol. 58:727-739. Note: ID cp29 Number of accession(s) cited: 12
  • Walsh, B. M., D. Adhikary, P. J. Maughan, E. Emishwillwe, & E. N. Jellen. 2015. Chenopodium polyploidy infrences from salt overly sensitive 1 (SOS1) data. Amer. J. Bot. 102:533-543. DOI: 10.3732/ajb.1400344. Number of accession(s) cited: 16
  • Ward, S. M. 1998. A new source of restorable cytoplasmic male sterility in quinoa. Euphytica 101:157-163. Note: Male sterility. Number of accession(s) cited: 1
  • Ward, S. 1994. Developing improved quinoa varieties for Colorado. PhD thesis, Colorado State University, Fort Collins. Unpublished dissertation Note: Has male sterility that is restored to fertility by crossing with standard cultivars. Number of accession(s) cited: 1
  • Ward, S. 2000. Allotetraploid segregation for single-gene morphological characters in quinoa (Chenopodium quinoa Willd.). Euphytica 116:11-16. Note: Male sterile parent in many crosses. Number of accession(s) cited: 1
  • Wetzel, P. R., W. R. Norris, & K. M. Lyles. 1999. The Vascular Flora of Doolittle Prairie State Preserve - A Prairie Pothole Wetland Complex. J. Iowa Acad. Sci. 106(2): 26-33. Number of accession(s) cited: 1
  • Wilson, H. D. 1985. Chenopodium quinoa Willd.: Variation and relationships in southern South America. Res. Rep. Natl. Geogr. Soc. 19:711-721. Number of accession(s) cited: 1
  • Yanase, Haruo. 1974. Studies on apple latent viruses in Japan: The association of apple topworking disease with apple latent viruses. Bull. Fruit Tree Res. Sta., E (Akitsu) Ser. C, 1:47-109. Note: Citation provided by donor Number of accession(s) cited: 1
  • Yarwood, C. E. & R. W. Fulton. 1967. Mechanical transmission of plant viruses. In: Maramorosch, K. & H. Koprowski, eds., Methods in Virology, vol. 3 237-266. Note: Methods in Virology. Vol. 1. Academic Press, NY. Citation provided by donor. Number of accession(s) cited: 1

IPR Citations
No citation information found.

Pedigree Citations
  • Johnson, D. L. 1988. New grains and pseudograins. In: Advances in new crops. Timber Press, Portland Ore. Number of accession(s) cited: 1
  • Wilson, H. D. 1985. Chenopodium quinoa Willd.: Variation and relationships in southern South America. Res. Rep. Natl. Geogr. Soc. 19:711-721. Number of accession(s) cited: 10
Accession
IPR
Pedigree