AMARANTH

Accession
IPR
Pedigree

Accession Citations
  • Abbott, T. P., B. S. Phillips, R. O. Butterfield, T. A. Isbell, & R. Kleiman. 1997. On-line chemical database for new crop seeds. J. Amer. Oil Chem. Soc. 74:723-726. Note: Describes the donor's (NCAUR) activity Number of accession(s) cited: 2
  • Adhikary, D. & D. B. Pratt. 2015. Morphologic and taxonomic analysis of the weedy and cultivated Amaranthus hybridus species complex . Syst. Bot. 40(2):604–610. DOI: 10.1600/036364415X688376. www.aspt.net/systematic-botany Number of accession(s) cited: 1
  • Agong, S. G. & P. O. Ayiecho. 1991. The rate of outcrossing in grain amaranths. Pl. Breed. (New York) 107:156-160. Note: Plant Breeding (ISSN 0179-9541) Number of accession(s) cited: 4
  • Akond, M., S. Islam, & Xinwang Wang. 2013. Characterization of biomass traits and cell wall components among diverse accessions of Amaranthaceae. J. Appl. Phytotechnol. Environm. Sanitat. 2:37-45. Number of accession(s) cited: 31
  • Andini, R., M. I. Sulaiman, & R. Ohsawa. 2018. Natural polyploidy in amaranths (Amaranthus spp.). AIP Conf. Proc. 020053:1-7. DOI: 10.1063/1.5050149. Note: The confrence was in 2002, but published Online: 15 August 2018 Number of accession(s) cited: 28
  • Andini, R., S. Yoshida, & R. Ohsawa. 2013. Variation in protein content and amino acids in the leaves of grain, vegetable, and weedy types of amaranths. Agron. Open Access 3:391-403. DOI: 10.3390/agronomy3020391. Number of accession(s) cited: 27
  • Andini, R., Y. Yoshida, Y. Yoshida, & R. Ohsawa. 2013. Amaranthus genetic resources in Indonesia: morphological and protein content assessment in comparison with worldwide amaranths. Genet. Resources Crop Evol. 60:2115-2128. Note: Andini accession number: 20 Number of accession(s) cited: 24
  • Baturaygil, A. & K. Schmid. 2022. Characterization of flowering time in genebank accessions of grain amaranths and their wild relatives reveals signatures of domestication and local adaptation. Agron. Open Access 12(2):505. DOI: 10.3390/agronomy12020505. Number of accession(s) cited: 250
  • Bell, M. S., A. G. Hager, & P. J. Tranel. 2013. Multiple resistance to herbicides from four site-of-action groups in waterhemp (Amaranthus tuberculatus). Weed Sci. 61:460-468. Note: cited as: ACR Number of accession(s) cited: 1
  • Blair M.W., J.M. Londoño, M.A. Buitrago-Bitar, X. Wu, & D.M. Brenner. 2023. Differentiation of Andean and Mesoamerican accessions in a proposed core collection of grain amaranths. Front. Plant Sci. 14:1144681. DOI: https://doi.org/10.3389/fpls.2023.1144681. Note: The accessions are not listed in the publication but were provided separately by the authors. Number of accession(s) cited: 203
  • Brenner, D. M. & D. J. Makus. 1997. 'Kerala Red' ornamental amaranth. HortScience 32:749-750. Note: release publication Number of accession(s) cited: 1
  • Brenner, D. M. & M. P. Widrlechner. 1998. Amaranthus seed regeneration in plastic tents in a greenhouse. Pl. Genet. Resources Newslett. 116:1-4. Number of accession(s) cited: 8
  • Brenner, D. M., D. D. Baltensperger, P. A. Kulakow, J. W. Lehmann, R. L. Meyers, M. M. Slabbert, & B. B. Sleugh. 2000. Genetic resources and breeding of amaranthus. Pl. Breed. Rev. 19:227-285. Note: entered as Plainsman Number of accession(s) cited: 29
  • Brenner, D. M., W. G. Johnson, C. L. Sprague, P. J. Tranel, & B. G. Young. 2013. Crop-weed hybrids are more frequent for the grain amaranth 'Plainsman' than for 'D136-1'. Genet. Resources Crop Evol. 60:2201-2205. Number of accession(s) cited: 2
  • Brenner, D. M. 1993. Hybrid seeds for increased amaranth grain yield. Legacy; annual newsletter 6:9-11. Number of accession(s) cited: 13
  • Brenner, D. M. 2002. Non-shattering grain amaranth populations. In: Janick, J. & A. Whipkey, Trends in new crops and new uses. Proceedings of the fifth Narional Symposium New Crops and New uses: Strength in diversity 104-106. Number of accession(s) cited: 4
  • Brenner, D. M. 2019. Registration of DB 199313, Cytoplasmic Male Sterile Grain Amaranth Genetic Stock. J. Pl. Registr. 13:251–253. DOI: 10.3198/jpr2018.06.0042crgs. Number of accession(s) cited: 5
  • Budin, J. T. et al. 1996. Some compositional properties of seeds and oils of eight Amaranthus species. J. Amer. Oil Chem. Soc. 73(4):475-481. Number of accession(s) cited: 20
  • Cai, Y., M. Sun, & H. Corke. 1998. Colorant properties and stability of Amaranthus betacyanin pigments. J. Agric. Food Chem. 46:4491-4495. Note: The identifier for this accession is: Cr072 Number of accession(s) cited: 1
  • Cai, Y., M. Sun, H. Wu, R. Huang, & H. Corke. 1998. Characterization and quantification of betacyanin pigments from diverse Amaranthus species. J. Agric. Food Chem. 46:2063-2070. Note: The identifier for this accession is: Cr072 Number of accession(s) cited: 29
  • Chan, K. F. & M. Sun. 1997. Genetic diversity and relationships detected by isozyme and RAPD analysis of crop and wild species of Amaranthus. Theor. Appl. Genet. 95:865-873. Number of accession(s) cited: 58
  • Chaney, L., R. Mangelson, T. Ramaraj, E. N. Jellen, & P. J. Maughan. 2016. The complete chloroplast genome sequences for four Amaranthus species (Amaranthaceae). Applic. Pl. Sci. 4(9):1600063. DOI: 10.3732/apps.1600063. Number of accession(s) cited: 8
  • Chattha, M. U., I. Khan, M. U. Hassan, M. Nawaz, M. B. Chattha, I. Ahamd, N. H. Khan, M. Usman, M. Kharal, & A. U. Khan. 2017. Agronomic appraisal of amranth accessions under semiarid conditions of Pakistan. Pak. J. Life Soc. Sci. 15(3):144-149. Number of accession(s) cited: 8
  • Clouse, J. W., D Adhikary, J. T. Page, T. Ramaraj, M. K. Deyholos, J. A. Udall, D. J. Fairbanks, E. N. Jellen, & P. J. Maughan. 2016. The amaranth genome: Genome, transcriptome, and physical map assembly. Pl. Genome 9:1-14. DOI: 10.3835/plantgenome2015.07.0062. Number of accession(s) cited: 8
  • Costea, M., D. M. Brenner, F. J. Tardif, Y. F. Tan, & M. Sun. 2006. Delimitation of Amaranthus cruentus L. and Amaranthus caudatus L. using micromorphology and AFLP analysis: and application in germplasm identification. Genet. Resources Crop Evol. 53:1625-1633. Note: RRC 175 Number of accession(s) cited: 18
  • Costea, M., F. J. Tardif, & D. M. Brenner. 2003. The identity of a cultivated Amaranthus from Asia and a new nomenclatural combination. Econ. Bot. 57:646-649. Number of accession(s) cited: 9
  • Covas, G. 1941. Las Amarantaceas Bonarienses. Darwiniana 5:329-368. Note: Donated by the author of this taxonomic treatment. Number of accession(s) cited: 1
  • Covas, G. 1991. Amaranthus australis (A. Gray)Sauer, Una interesante especie dioica de amaranto. Amarantos Noved. Inform. 9:4. Note: 3.2 meters tall in Argentina, of interest for forage Number of accession(s) cited: 1
  • Daloz, C. 1979. Amaranth as a leaf vegetable: Horticultural observations in a temperate climate. Proceedings of the 2nd Amaranth Conference, Kutztown, PA, 13-14 September 1979 68-73. Number of accession(s) cited: 1
  • Daloz, C. 1981. Horticultural aspects of the vegetable amaranths Cornell University, Ithaca, NY. Note: Master's Thesis Number of accession(s) cited: 16
  • Delano-Frier, J. P., H. Aviles-Arnaut, K. Casarrubias-Castillo, G. Casique-Arroyo, P. A. Castrillon-Arbelaez, L. Herrera-Estrella, J. Massange-Sanchez, N. A. Martinez-Gallardo, F. I. Parra-Cota, E. Vargas-Ortiz, & M. G. Estrada-Hernandez. 2011. Transcriptomic analysis of grain amaranth (Amaranthus hypochondriacus) using 454 pyrosequencing: comparison with A. tuberculatus, expression profiling in stems and in response to biotic and abiotic stress. B. M. C. Genomics 12:363. Note: The number "38040" is probably IC 38040, which is PI 480569. Number of accession(s) cited: 1
  • Esan, Y. O., O. Omoba, & V. N. Enujiugha. 2018. Biochemical and nutritional compositions of two accessions of Amaranthus cruentus seed flour. Amer. J. Food Sci. Technol. 6:145-150. DOI: 10.12691/ajfst-6-4-3. Number of accession(s) cited: 2
  • Espitia, E. 1986. Caracterización y Evaluación Preliminar de Germoplasma de Amaranthus spp. Thesis, Univ. Autonoma Agraria Antonio Narro, Saltillo, Mexico. Unpublished thesis. Note: CH1 Number of accession(s) cited: 10
  • Fuerst, E. P., C. J. Arntzen, K. Pfister, & D. Penner. 1986. Herbicide cross-resistance in triazine-resistant biotypes of four species. Weed Sci. 34:344-353. Number of accession(s) cited: 2
  • Garcia-Palacios, P., R. Milla, M. Delgado-Baquerizo, N. Martin-Robles, M. Alvaro-Sanchez, & D. H. Wall. 2013. Side-effects of plant domestication: ecosystem impacts of changes in litter quality. New Phytol. 198:504-513. Number of accession(s) cited: 1
  • Grubben, G. J. H. 1976. The cultivation of amaranth as a leaf vegetable. 16. Note: Dept. of Agr. Res. Royal Tropical Inst., Amsterdam, The Netherlands. Number of accession(s) cited: 2
  • Gupta, V. K. & D. Thimba. 1992. Grain amaranth: a promising crop for marginal areas of Kenya. Food Rev. Int. 8:51-69. Note: Yield trials, interpretation, and mention of good popping Number of accession(s) cited: 1
  • Hauptli, H. & S. Jain. 1984. Allozyme variation and evolutionary relationships of grain amaranths (Amaranthus spp.). Theor. Appl. Genet. 69:153-165. Number of accession(s) cited: 43
  • Hauptli, H. & S. Jain. 1985. Genetic variation in outcrossing rate and correlated floral traits in a population of grain amaranth. Genetica 66:21-27. Note: 1 to 6 male flowers per glomerule. Number of accession(s) cited: 17
  • Hauptli, H. & S. K. Jain. 1978. Biosystematics and agronomic potential of some weedy and cultivated amaranths. Theor. Appl. Genet. 52:177-185. Number of accession(s) cited: 6
  • 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: 108
  • Hinz, J. R. R. & M. D. K. Owen. 1997. Acetolactate synthase resistance in a common waterhemp (Amaranthus rudis) population. Weed Technol. 11:13-18. Number of accession(s) cited: 1
  • Hoidal, N., S.-E. Jacobsen, A. Odone, & G. Alandia. 2020. Defoliation timing for optimal leaf nutrition in dual-use amaranth production systems. J. Sci. Food Agric. 100:4745-4755. DOI: 10.1002/jsfa.10533. Note: Lists PI 674253 as 'Benito' Number of accession(s) cited: 1
  • Hong, S., K. Cheon, K. Yoo, H. Lee, M. Mekapogu. & K. Cho. 2019. Comparative analysis of the complete chloroplast genome sequences of three amaranthus species. Pl. Genet. Resources Charact. Util. 17:245-254. DOI: 10.1017/S1479262118000485. Number of accession(s) cited: 1
  • Idowu-Agida, O. O., B. O. Oladosu, & J. O. Olaniyi. 2020. Evaluation of yield and yield related traits of exotic grain amaranth (Amaranthus spp.) accessions. Agro-Sci. 19(1):11-17. Note: entered as RRC 771 Number of accession(s) cited: 24
  • Jain, S. K., K. R. Vaidya, & B. D. Joshi. 1980. Collection and evaluation of Indian grain amaranths. Proceedings of the 2nd Amaranth Conference, Kutztown, PA, 13-14 September 1979 123-128. Note: Describes plant collecting in 1978. Number of accession(s) cited: 111
  • Jha, P. K., J. P. Sah, & M. K. Chettri. 1987. Amaranth distribution in Nepal. Amaranth Newsletter 3:3-4. Note: A publication by the Tribuhaven University Amaranth group, that donated the germplasm Number of accession(s) cited: 9
  • Jha, P. K., K. K. Shrestha, M. P. Upadhyay, D. P. Stimart, & D. M. Spooner. 1986. Plant genetic resources of Nepal: A guide for plant breeders of agricultural, horticultural, and forestry crops. Euphytica 87:189-210. Note: General background and information about the collecting expedition Number of accession(s) cited: 3
  • Jimenez-Aguilar, D. M. & M. Grusak. 2017. Minerals, vitamin C, phenolics, flavonoids and antioxidant activity of Amaranthus leafy vegetables. J. Food Compos. Analysis 58:33-39. DOI: 10.1016/j.jfca.2017.01.005. Number of accession(s) cited: 37
  • Joshi, B. D. & R. S. Rana. 1991. Grain amaranths: the future food crop National Bureau of Plant Genetic Resources, New Dehli, India. 95-96. Note: multilocation yield trials Number of accession(s) cited: 28
  • Joshi, B. D. 1981. Exploration for Amaranth in Northwest India. Pl. Genet. Resources Newslett. 48:41-50. Note: Collections in October-November 1978, 1979, and 1980 Number of accession(s) cited: 893
  • Kauffman, Charles S. 1981. Improved grain amaranth varieties and their yields (3-year summary). Note: RRC 1002 is on page 20 Number of accession(s) cited: 63
  • Kaur, S., N. Singh, & J. C. Rana. 2010. Amaranthus hypochondriacus and Amaranthus caudatus germplasm: Characteristics of plants, grain and flours. Food Chem. 123:1227-1234. DOI: 10.1016/j.foodchem.2010.05.091. Number of accession(s) cited: 1
  • Kietlinski, K. D., F. Jimenez, E. N. Jellen, P. J. Maughan, S. M. Smith, & D. B. Pratt. 2014. Relationships between the weedy Amaranthus hybridus (Amaranthaceae) and the grain amaranths. Crop Sci. (Madison) 54:220-228. DOI: 10.2135/cropsci2013.03.0173. Note: Listed in the paper as Ames 5320 Number of accession(s) cited: 53
  • Kolano, B., K. Saracka, A. Broda-Cnota, & J. Maluszynska. 2013. Localization of ribosomal DNA and CMA3/DAPI heterochromatin in cultivated and wild Amaranthus species. Sci. Hort. 164:249-255. DOI: 10.1016/j.scienta.2013.09.016. Number of accession(s) cited: 11
  • Kondo, F., T. Milkoshiba, R. Fujihara, K. Matshshima, & K. Nemoto. 2024. Identification of inheritance manner and responsible locus (Acsh) related to seed-shattering in grain amaranths (Amaranthus cruentus). Euphytica 220:136 DOI: https://doi.org/10.1007/s10681-024-03390-7. Note: on page 136 Number of accession(s) cited: 1
  • Kulakow, P. A. 1987. Genetics of grain amaranths: II The inheritance of determinance, panicle orientation, dwarfism, and embryo color in Amaranthus caudatus. J. Heredity 78:293-297. Number of accession(s) cited: 4
  • Kysel, M., V. Stefunova, M. Bezo, & J. Ziarovska. 2018. The effect of microsatelitte core sequence in the differentiation of amaranthus cruentus genotypes. J. Microbiol. Biotechnol. Food Sci. 7(6):607-610. DOI: 10.15414/jmbfs.2018.7.6.607-610. Note: entered as Ames 1959 Number of accession(s) cited: 18
  • Lehmann, J. W., R. L. Clark, & K. J. Frey. 1991. Biomass heterosis and combining ability in interspecific and intraspecific matings of grain Amaranthus. Crop Sci. (Madison) 31:1111-1116. Note: F''5 Number of accession(s) cited: 31
  • Li, N., Z. Li, Q. Fu, P. Zhuang, B. Guo, & H. Li. 2013. Agricultural technologies for enhancing the phytoremediation of cadmium-contaminated soil by Amaranthus hypochondriacus L. Water Air Soil Pollut. 224:1-8. DOI: 10.1007/s11270-013-1673-3. Number of accession(s) cited: 1
  • Lightfoot, D. J., D. E. Jarvis, T. Ramaraj, R. Lee, E. N. Jellen, & P. J. Maughan. 2017. Single-molecule sequencing and Hi-C based proximity-guided assembly of amaranth (Amaranthus hypochondriacus) chromosomes provide insights into genome evolution. B. M. C. Pl. Biol. 15:74. DOI: 10.1186/s12915-017-0412-4. Number of accession(s) cited: 1
  • Mallory, M. A., R. V. Hall, A. R. McNabb, D. B. Pratt, E. N. Jellen, & P. J. Maughan. 2008. Development and characterization of microsatellite markers for the grain amaranths. Crop Sci. (Madison) 48:1098-1106. Number of accession(s) cited: 34
  • Marcone, M. F. 2000. First report of the characterization of the threatened plant species Amaranthus pumilus (seabeach amaranth). J. Agric. Food Chem. 48:378-382. Note: Chemical components/composition of the seeds. Higher in squalene than other amaranths. Number of accession(s) cited: 1
  • Maughan, P. J., S. M. Yourstone, E. N. Jellen, & J. A. Udall. 2009. SNP Discovery via Genomic Reduction, Barcoding, and 454-Pyrosequencing in Amaranth. Pl. Genome 2:260-270. Note: MID2 Number of accession(s) cited: 4
  • Murakami, T., A. Yutani, T. Yamano, H. Iyota, & Y. Konishi. 2013. Effects of popping on nutrient contents of amaranth seed. Plant Foods Hum. Nutr. 69:25-29. DOI: 10.1007/s11130-013-0392-7. Number of accession(s) cited: 1
  • Murphy, B. P. & P. J. Tranel. 2018. Identification and validation of Amaranthus species-specific SNPs within the ITS region: applications in quantitative species identification. Crop Sci. (Madison) 58:304-311. DOI: 10.2135/cropsci2017.06.0359. Note: Listed as RRC 42 Number of accession(s) cited: 35
  • Nabhan, G. 1979. Amaranth cultivation in the U.S. southwest and northwest Mexico. Proceedings of the 2nd Amaranth Conference, Kutztown, PA, 13-14 September 1979 129-133. Note: Proceedings of the second amaranth conference, Rodale Research Center, Kutztown, PA 13-14 Sept. 1979. Rodale Press, Emmaus, PA. entered as GN 975 Number of accession(s) cited: 5
  • Nemoto, K., B. K. Baniya, M. Minami, & A. Ujihara. 1998. Grain amaranths research in Nepal. J. Fac. Agric. Kyushu Univ. 34:49-58. Note: GA 5025 high yield Number of accession(s) cited: 3
  • Nemoto, K., M. Minami, & T. Nagamine. 2016. Variation and geographical distribution of perisperm starch in grain amaranths (Amaranthus spp.), and the origin of waxy perisperm type. Trop. Agric. Developm. 60:172-178. Note: A.C R104 used for 0 amylose calibration Number of accession(s) cited: 2
  • Pal, M. & R. M. Pandy. 1982. Decrease in quadrivalent frequency over a 10 year period in autotetraploids in two species of grain amaranths. Cytologia 47:795-801. Note: This accession seems to be part of the same kind of polyploidy research by the same authors Number of accession(s) cited: 1
  • Pandy, C. D., A. Kak, S. Pandy, & V. Gupta. 2015. Trait specific amaranth germplasm – potentialities to combat climate change. Indian J. Pl. Genet. Res. 28:321-328. DOI: 10.5958/0976-1926.2015.00043.1. Note: Indian Society of Plant Genetic Resources. Number of accession(s) cited: 1
  • Pandy, R. M. 1982. Genetics of agronomic traits in Amaranthus. SABRAO J. Breed. Genet. 14:121-129. Note: Listed as AG-21 Number of accession(s) cited: 1
  • Park, Young-Jun & T. Nishikawa. 2012. Rapid identification of Amaranthus caudatus and Amaranthus hypochondriacus by sequencing and PCR-RFLP analysis of two starch synthase genes. Genome 55:623-628. Number of accession(s) cited: 52
  • Park, Young-Jun et al. 2009. Molecular cloning and characterization of granule bound starch synthase I cDNA from a grain amaranth (Amaranthus cruentus L.). Breed. Sci. 59:351-360. Number of accession(s) cited: 2
  • Park, Young-Jun et al. 2010. Waxy strains of three amaranth grains raised by different mutations in the coding region. Molec. Breed. 25:623-635. Number of accession(s) cited: 6
  • Patzoldt, W., P. Tranel, & A. Hager. 2005. A waterhemp (Amaranthus tuberculatus) biotype with multiple resistance across three herbicide sites of action. Weed Sci. 55:30-36. Number of accession(s) cited: 1
  • Peters, I. & S. Jain. 1987. Genetics of grain amaranths III. Gene-cytoplasmic male sterility. J. Heredity 78:251-256. Number of accession(s) cited: 5
  • Pond, W. G. & I. W. Lehmann. 1989. Nutritive value of a vegetable amaranth cultivar for growing lambs. J. Anim. Sci. 67:3036-3039. Number of accession(s) cited: 1
  • Pond, W. G., J. W. Lehmann, R. Elmore, F. Husby, C. C. Calvert, C. W. Newman, B. Lewis, R. L. Harrold, & J. Froseth. 1991. Feeding value of raw or heated grain amaranth germplasm. Anim. Feed Sci. Technol. 33:221-236. Number of accession(s) cited: 5
  • Pratt, D. B. & L. G. Clark. 2001. Amaranthus rudis and A. tuberculatus - one species or two? J. Torrey Bot. Soc. 128:282-296. Note: Pratt 107 Number of accession(s) cited: 24
  • Rangarajan, A., W. A. Choweth, J. F. Kelly, & K. M. Agee. 1998. Iron Bioavailability from Amaranthus Species: 2 - Evaluation using Haemoglobin Repletion in Anaemic Rats. J. Sci. Food Agric. 78:274-280. Number of accession(s) cited: 3
  • Shanmugavelu, K. G., M. K. Mohideen, S. Ramadas, & D. Veeraragavthatham. 1989. Accomplishments in amaranth research at the College of Horticulture, Tamil Nadu Agricultural University. Amaranth Newsletter 3:5-7. Note: Cited as: Co. 2 Number of accession(s) cited: 1
  • Sherwood, A. P. & J. D. Carstens. 2024. NCRPIS Collection Trip Report - Nevada-Arizona Fraxinus. Technical Report to USDA-ARS Plant Exploration Office, National Germplasm Resources Laboratory, Beltsville, Maryland pp. 1-23. Number of accession(s) cited: 1
  • Shinano, T., T. Watanabe, Q. Chu, & M. Osaki. 2014. Varietal difference in radiocesium uptake and transfer from radiocesium deposited soils in the genus Amaranthus. Soil Sci. Pl. Nutr. 60:809–817. DOI: 10.1080/00380768.2014.922035. Note: Listed as: RRC 1011 Number of accession(s) cited: 18
  • Sleugh, B. B, K. J. Moore, E. C. Brummer, A. D. Knapp, J. Russell, & L. Gibson. 2001. Forage nutritive value of various amaranth species at different harvest dates. Crop Sci. (Madison) 41:466-472. Number of accession(s) cited: 7
  • Sooby, J., R. Myers, D. Baltensperger, D. Brenner, R. Wilson, & C. Block. 1999. Amaranth: Production Manual for the Central United States University of Nebraska Cooperative Extension, Sidney, NE. EC-98-151-S. Number of accession(s) cited: 11
  • Stefunova, V., M. Bezo, J. Ziarovska, & K. Razna. 2015. Detection of the genetic variability of Amaranthus by RAPID and ISSR markers. Pakistan J. Bot. 47:1293-1301. Number of accession(s) cited: 55
  • Stetter, M. G. & K. J. Schmid. 2017. Analysis of phylogenetic relationships and genome size evolution of the Amaranthus genus using GBS indicates the ancestors of an ancient crop. Molec. Phylogenet. Evol. 109:80–92. Number of accession(s) cited: 71
  • Stetter, M. G., M. Vidal-Villarejo, & K. J. Schmid. 2020. Parallel seed color adaptation during multiple domestication attempts of an ancient New World grain. Molec. Biol. Evol. 37(5):1407-1419. DOI: 10.1093/molbev/msz304. Number of accession(s) cited: 117
  • Stetter, M. G., T. Muller, & K. J. Schmid. 2017. Genomic and phenotypic evidence for an incomplete domestication of South American grain amaranth (Amaranthus caudatus). Molec. Ecol. 26:871-886. DOI: 10.1111/mec.13974. Number of accession(s) cited: 117
  • Sun, M., H. Chen, & F. C. Leung. 1999. Low-Cot DNA sequences for fingerprinting analysis of germplasm diversity and relaitonships in Amaranthus. Theor. Appl. Genet. 99:464-472. Number of accession(s) cited: 24
  • Svirskis, A. 2003. Investigation of amaranth cultivation and utilisation in Lithuania. Agronomy Research 1:253-264. Number of accession(s) cited: 1
  • Tranel, P. J., Chenxi Wu, & A. Sadeque. 2017. Target-Site Resistances to ALS and PPO Inhibitors Are Linked in Waterhemp (Amaranthus tuberculatus) . Weed Sci. 65:4-8. DOI: 10.1614/WS-D-16-00090.1. Note: cited as: ACR Number of accession(s) cited: 1
  • Trucco, F., A. Hager, & P. Tranel. 2006. Acetolactate Synthase Mutation Conferring Imidazolinone-Specific Herbicide Resistance in Amaranthus hybridus. Pl. Physiol. (Lancaster) 163:475-479. Number of accession(s) cited: 1
  • Tucker, J. M. & J. D. Sauer. 1958. Aberrant Amaranthus Populations of the Sacramento-San Joaquin Delta, California. Madroño 14:252-261. Note: Regarding plants from the same location. Number of accession(s) cited: 1
  • Vencill, W. K. & C. L. Foy. 1988. Distribution of triazine-resistant smooth pigweed (Amaranthus hybridus) and common lambsquarters (Chenopodium album) in Virginia. Weed Sci. 36:497-499. Number of accession(s) cited: 1
  • Vorsah, R. V., B. N. Dingha, H. Sharma, & L. E. Jackai. 2020. Evaluation of biorational insecticides as a stand-alone treatments for the management of the pigweed flea beetle, disonycha glabrata (coleoptera: chrysomelidae), in organic production of amaranthus spp. Sustain. Agric. Res. 9:58-70. DOI: 10.5539/sar.v9n3p58. Note: Sustainable Agriculture Research. entered as Hopi Red-Dye Number of accession(s) cited: 1
  • Waselkov, K. E., A. S. Boleda, & K. M. Olsen. 2018. A phylogeny of the genus Amaranthus (Amaranthaceae) based on several low-copy nuclear loci and chloroplast regions. Syst. Bot. 43:439-458. DOI: 10.1600/036364418X697193. www.aspt.net/systematic-botany Number of accession(s) cited: 53
  • Waselkov, K. E. 2013. Population Genetics and Phylogenetic Context of Weed Evolution in the Genus Amaranthus: Amaranthaceae. PhD thesis, Washington University, Saint Louis. Unpublished dissertation 1162. DOI: 10.7936/k7j38qj4. Number of accession(s) cited: 1
  • Webb, D. M. 1985. Seed germination and seedling emergence in Amaranthus spp. Thesis, Master of Science in Agronomy, Montana State University, Bozeman, MT. Unpublished thesis. 14. Note: explains how Ames 3078 originates with RRC 382 (which is accessioned in the NPGS as PI 608791). Number of accession(s) cited: 2
  • Weber, L. E. & C. Reider. 1989. 1988 Rodale Amaranth Germplasm Catalog. Rodale Press, Kutztown, PA Note: RRC 1004 on page 47. Number of accession(s) cited: 1
  • Weber, L.E., C.S. Kaufman, N.N.Bailey, B.T. Volak. 1985. Amaranth Grain Prod. Guide. page 36, appendix III Note: Rodale Research Center, Rodale Press, Inc. Number of accession(s) cited: 1
  • Wilson, Richard L. 1986. Entomological research on amaranth at the North Central Regional Plant Introduction Station, Ames, Iowa. Proceedings of the 3rd Amaranth Conference, Kutztown, PA, 11-13 September 1984 192-200 in Proceedings of the third amaranth conference, grain amaranth: expanding consumption through improved cropping, marketing and crop development. Note: Cited as: Ames 1977 Number of accession(s) cited: 34
  • Wu, H. et al. 1995. Physical properties of starch from two genotypes of Amaranthus cruentus of agricultural significance in China. Starch Number of accession(s) cited: 1
  • Wu, H., M. Sun, S. Yue, H. Sun, Y. Cai, D. Brenner, & H. Corke. 2000. Field evaluation of an Amaranthus genetic resources collection in China. Genet. Resources Crop Evol. 47:43-53. Note: High grain yield in trials, as Cr047. Number of accession(s) cited: 3
  • Wu, H., M. Sun, S. Yue, H. Sun, Y. Cai, R. Huang, D. Brenner, & H. Corke. 2000. Field evaluation of an Amaranthus genetic resources collection in China. Genet. Resources Crop Evol. 47:43-53. DOI: https://doi.org/10.1023/A:1008771103826. Note: High grain yield as Cr044. Number of accession(s) cited: 1
  • Wu, Xinbo & M. W. Blair. 2017. Diversity in grain amaranths and relatives distinguished by genotyping by sequencing (GBS). Front. Plant Sci. 8:1960. DOI: 10.3389/fpls.2017.01960. Number of accession(s) cited: 94
  • Xu, F. & M. Sun. 2001. Comparative analysis of phylogenetic relationships of grain amaranths and their wild relatives (Amaranthus; Amaranthaceae) using internal transcribed spacer, amplified fragment length polymorphism, and double- [truncated]. Molec. Phylogenet. Evol. 21:372-387. Note: cited as Ames 5134 Number of accession(s) cited: 26
  • 1989. Crop Sci. Crop Sci. (Madison) 29(1):244. Number of accession(s) cited: 1

IPR Citations
  • Baltensperger, D. D., L. E. Weber, & L. A. Nelson. 1992. Plainsman grain amaranth. Crop Sci. (Madison) 32(6):1510. Note: CV-150 Number of accession(s) cited: 1
  • Brenner, D. M. 2019. Registration of Cytoplasmic Male Sterile Grain Amaranth Genetic Stock DB 199313 (PI 686465). J. Pl. Registr. 13(2):251. Number of accession(s) cited: 1
  • Schulz-Schaeffer, J., D. E. Baldridge, H. R. Bowman, G. F. Stallknecht, & R. A. Larson. 1991. Amont grain amaranth. Crop Sci. (Madison) 31(2):482. Note: CV-2 Number of accession(s) cited: 1
  • Schulz-Schaeffer, J., G. F. Stallknecht, D. E. Baldridge, & R. A. Larson. 1989. Registration of Montana-3 grain amaranth. Crop Sci. (Madison) 29(1):244. Note: GP-1 Number of accession(s) cited: 1
  • 1989. Montana-5 Grain Amaranth Germplasm. Crop Sci. (Madison) 29(6):1581. Note: GP-2 Number of accession(s) cited: 1

Pedigree Citations
  • Brenner, D. M. & D. J. Makus. 1997. 'Kerala Red' ornamental amaranth. HortScience 32(4):749-750. Number of accession(s) cited: 1
  • Brenner, D. M. 1993. Hybrid seeds for increased amaranth grain yield. Legacy; annual newsletter 6:9-11. Number of accession(s) cited: 7
  • Gupta, V. K. & S. Gudu. 1990. Inheritance of some morphological traits in grain amaranthus. Euphytica 46:79-84. Note: Netherlands journal of plant breeding Number of accession(s) cited: 1
  • Joshi, B. D. 1985. Annapurna a new variety of grain amaranth. Indian Farming 35(8):29, 31. Number of accession(s) cited: 1
  • Kalinowski, L. S. et al. 1992. Grain amaranth research in Peru. Food Rev. Int. 8:87-124. DOI: 10.1080/87559129209540931. Number of accession(s) cited: 11
  • Kauffman, C. S. 1981. Improved grain amaranth varieties and their yields (3-year summary). 81-1, New Crops Dept., OGF Res. Cent. Rodale Press Number of accession(s) cited: 2
  • Peters, I. & S. Jain. 1987. Genetics of grain amaranths III. Gene-cytoplasmic male sterility. J. Heredity 78:251-256. Number of accession(s) cited: 5
  • Sumar et al. 1986. CICA report 86-2. Number of accession(s) cited: 1
  • Weber, L. E. & C. Reider. 1989. 1988 Rodale Amaranth Germplasm Catalog, and original seed packet. Plant (seed or nursery) catalog Number of accession(s) cited: 2
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IPR
Pedigree