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Journal of Plant Registrations : Just Published


Accepted, edited articles are published here after author proofing to provide rapid publication and better access to the newest plant registrations. Articles are compiled into issues every four months at dl.sciencesocieties.org/publications/jpr, which includes the complete archive. Citation | Articles posted here are considered published and may be cited by the doi.

Kelly, J.D., G.V. Varner, and E.M. Wright. 2010. Registration of 'Bellagio' cranberry bean. J. Plant Reg. doi: 10.3198/jpr2010.02.0069crc

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Current issue: Journal of Plant Registrations 9(3)


    • T. C. Helms and B. D. Nelson
      Registration of ‘ND Henson’ Soybean

      ‘ND Henson’ soybean [Glycine max (L.) Merr.] (Reg. No. CV-517, PI 675334) was first tested as ND09-5604 and was released in January 2015 by the North Dakota Agricultural Experiment Station, North Dakota State University (NDSU), to provide producers with Maturity Group 0 conventional cultivar (relative maturity 0.0), generally adapted as a full-season cultivar from 48 to 49° N latitude. ND Henson was evaluated by the NDSU soybean breeding program in advanced yield trials for a total of 27 location-years that included 2011 to 2014. (continued)

      Published: October 2, 2015

    • W. W. Hanna, S. K. Braman and B. M. Schwartz
      Registration of ‘Tift 10’, ‘Tift 11’, and ‘Tift 40’ Trispecific Ornamental Pennisetum

      ‘Tift 10’ (Reg. No. CV-277, PI 674816; PP25,515), ‘Tift 11’ (Reg. CV-278, PI 674817; PP25,514), and ‘Tift 40’ (Reg. (continued)

      Published: November 12, 2015

    • Hardev S. Sandhu, Robert A. Gilbert, Jack C. Comstock, Vanessa S. Gordon, Pedro Korndörfer, Rebecca A. Arundale and Nael El-Hout
      Registration of ‘UFCP 82-1655’ Sugarcane

      ‘UFCP 82-1655’ (Reg. No. CV-164; PI 673050), a high fiber and low sucrose sugarcane, also called energy cane (a complex hybrid of Saccharum sp.), was developed through the collaborative effort of the University of Florida (UF) and the USDA-ARS, Canal Point (CP) for its potential use in cellulosic ethanol production in Florida. UFCP 82-1655 has moderate to high resistance against smut (caused by Sporisorium scitamineum). (continued)

      Published: October 23, 2015

    • L. Liu, M. D. Barnett, C. A. Griffey, S. Malla, W. S. Brooks, J. E. Seago, H. Butler, W. E. Thomason, E. G. Rucker, H. D. Behl, R. M. Pitman, D. W. Dunaway, M. E. Vaughn, J. T. Custis, B. Seabourn, R. Chen, M. Fountain, D. Marshall, R. A. Graybosch, L. A. Divis, L. E. Hansen, C. Cowger, S. Cambron, Y. Jin, B. R. Beahm, T. H. Hardiman, C. J. Lin, D. F. Mennel and D. L. Mennel
      Registration of ‘LCS Wizard’ Wheat

      The objective of this research was to develop widely adapted hard winter wheat (Triticum aestivum L.) varieties to meet the needs of mills, bakeries, and consumers in the eastern and Great Plains regions of the United States. ‘LCS Wizard’ (Reg. No. CV-1111, PI 669574), a hard red winter (HRW) wheat, was developed and tested as VA08HRW-80 and co-released by the Virginia Agricultural Experiment Station and Limagrain Cereal Seeds, LLC in 2013. (continued)

      Published: October 21, 2015

    • Serge J. Edmé, R. Wayne Davidson, Duli Zhao, Jack C. Comstock, Hardev S. Sandhu, Barry Glaz, Scott Milligan, Chen-Jian Hu, Sushma Sood, Katherine McCorkle, Robert A. Gilbert and Neil C. Glynn
      Registration of ‘CPCL 05-1201’ Sugarcane

      ‘CPCL 05-1201’ (Reg. No. CV-163, PI 672485) is a sugarcane (Saccharum spp.) hybrid cultivar bred by United States Sugar Corporation, tested in the breeding program led by the USDA–ARS, University of Florida, and Florida Sugarcane League, and released to Florida growers in October 2012. CPCL 05-1201 combines the high-sucrose genes of its female parent (CL 87-2882) with the high tonnage genes of its male parent (CL 93-2679). (continued)

      Published: November 6, 2015


    • Vicki L. Tolmay, Scott L. Sydenham, Willem H.P. Boshoff, Barend S. Wentzel, Chrissie W. Miles and Mardé Booyse
      Registration of Five Spring Wheat Lines Resistant to Russian Wheat Aphid, Stem Rust (Ug99), Leaf Rust, and Stripe Rust

      Russian wheat aphid (RWA; Diuraphis noxia Kurdjumov) and wheat rusts (stem rust [caused by Puccinia graminis Pers.:Pers. f. sp. tritici Eriks. (continued)

      Published: September 8, 2015

    • Lloyd Mbulwe, Gary C. Peterson, J. Scott-Armstrong and William L. Rooney
      Registration of Sorghum Germplasm Tx3408 and Tx3409 with Tolerance to Sugarcane Aphid [ Melanaphis sacchari (Zehntner)]

      The sorghum [Sorghum bicolor (L.) Moench] germplasm lines Tx3408 (ATx3408, Reg. No. GP-838, PI 675360; BTx3408, Reg. GP-839, PI 675361) and Tx3409 (ATx3409, Reg. (continued)

      Published: November 23, 2015

    • G. J. Ma, G. J. Seiler, S. G. Markell, T. J. Gulya and L. L. Qi
      Registration of Two Double Rust Resistant Germplasms, HA-R12 and HA-R13 for Confection Sunflower

      Two confection sunflower (Helianthus annuus L.) germplasms, HA-R12 (Reg. No. GP-333, PI 673104) and HA-R13 (Reg. GP-334, PI 673105), were developed by the USDA-ARS, Sunflower and Plant Biology Research Unit, Fargo, ND, in collaboration with the North Dakota Agricultural Experiment Station, and released in July 2014. (continued)

      Published: October 9, 2015

    • Anne M. Gillen, Robert L. Paris, Prakash R. Arelli, James R. Smith and Alemu Mengistu
      Registration of Soybean Germplasm Line DB04-10836 with High Yield Potential and Resistance to Soybean Cyst Nematode

      New soybean [Glycine max (L.) Merr.] lines with high yield potential are needed by public and private soybean breeders. Soybean germplasm line DB04-10836 (Reg. No. GP-398, PI 674010), a late maturity group V (relative maturity 5.8) line, was developed by the USDA–ARS, Stoneville, MS. (continued)

      Published: November 6, 2015


    • James M. Johnson, German Muttoni, Natalia de Leon and Shawn M. Kaeppler
      Registration of the NyH (Ny821×H99) Maize Recombinant Inbred Mapping Population

      The Ny821×H99 (NyH) maize (Zea mays L.) mapping population (MP-4, NSL 511548 MAP) is composed of 234 recombinant inbred lines (RILs). The population was developed from an initial cross between inbred lines Ny821 and H99 (PI 587129). The parents of this population were selected on the basis of variation for low phosphorus tolerance, with the parent with higher tolerance, Ny821, having a highly branched root system and the parent with lower tolerance, H99, having a simple root system. The population segregates for a number of agronomic traits, including plant height, ear height, leaf number, and flowering time. (continued)

      Published: September 8, 2015

    • James M. Johnson, German Muttoni, Natalia de Leon and Shawn M. Kaeppler
      Registration of the OhW (Oh43×W64A) Maize Recombinant Inbred Mapping Population

      The Oh43×W64A (OhW) maize (Zea mays L.) mapping population (MP-3, NSL 511549 MAP) consists of 255 recombinant inbred lines (RILs). This mapping population was constructed from a cross between inbred lines Oh43 (Ames 19288) and W64A (PI 587152). Our primary goal was to develop a mapping population segregating for a large number of important agronomic traits using a cross of lines that formed a heterotic hybrid used in the northern Corn Belt. Genetic markers were scored using genotyping-by-sequencing technology, and a high-density genetic map was constructed using the single nucleotide polymorphism data. (continued)

      Published: September 8, 2015


    • B. T. Scully, M. D. Krakowsky, X. Ni, P. J. Tapp, J. E. Knoll, R. D. Lee and B. Z. Guo
      Registration of Maize Inbred Line GT888

      Maize (Zea mays L.) inbred line GT888 (PL-364, PI 670116) was developed and released by the USDA-ARS in cooperation with the University of Georgia and in participation with the USDA Germplasm Enhancement of Maize (GEM) project. GT888 was derived from GEM population DK888:N11 (GEMN-0177), which has 50% tropical and 50% temperate parentage. GT888 is a yellow dent inbred that was selected through a pedigree breeding program for improved resistance to aflatoxin contamination produced by the causal organism Aspergillus flavus (Link: Fr.). It was compared with three inbreds, Mp313E, Mp717, and Mp719, which are known standards that resist aflatoxin contamination. (continued)

      Published: October 9, 2015

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