Details for: W6 44717, Pisum sativum L., QI DONG CAO WAN DOU


Summary Data
Taxonomy:
Pisum sativum L.
Top Name:
QI DONG CAO WAN DOU
Origin:
Collected – Nei Mongol Zizhiqu, China
Received by NPGS:
14 Jun 2012
Improvement Status:
Landrace
Form Received:
Seed
Life Form:
Annual
Life Cycle:
Annual
Availability
FormQuantityNoteInventoryCart
Seed30 countW6 44717 2018i SD
 
There are no images for this accession.

Core Passport Data
Taxonomy:
Pisum sativum L.
Top Name:
QI DONG CAO WAN DOU
Origin:
Collected – Nei Mongol Zizhiqu, China
Received by NPGS:
14 Jun 2012
Improvement Status:
Landrace
Form Received:
Seed
Life Form:
Annual
Life Cycle:
Annual
Source History
Collected
PRE 25 July 2005.
Nei Mongol Zizhiqu, China
Locality: YI KE ZHAO MENG

Donated
25 July 2005.
Beijing Shi, China

Donor(s):
14 June 2012.
Victoria, Australia
Comment: Australia obtained it from China
Donor(s):
Accession Names and Identifiers
QI DONG CAO WAN DOU
Type: Local name

ATC 7114
Type: Institute identifier
Group: ATC
Australian Temperate Field Crops Collection
Australian Temperate Field Crops Collection

G0002694
Type: Institute identifier
Group: CAAS
Chinese Academy of Agricultural Science
Xuxiao, Zong Chinese Academy of Agricultural Sciences

W6 44717
Type: Site identifier
Group: W6
Western Regional Plant Introduction (W6) accession numbers
USDA-ARS, WRPIS

Narrative
Pisum sativum L.
Genus:
Pisum
Family:
Fabaceae (alt. Leguminosae)
Subfamily:
Faboideae
Tribe:
Fabeae
Nomen number:

300472
Place of publication:

Sp. pl. 2:727. 1753
Verified:
08/06/1986 by ARS Systematic Botanists.
Other conspecific taxa
Pisum sativum L. subsp. asiaticum Govorov (56 active accession[s])
Pisum sativum L. subsp. elatius (M. Bieb.) Asch. & Graebn. (105 active accession[s])
Pisum sativum L. subsp. elatius (M. Bieb.) Asch. & Graebn. var. brevipedunculatum P. H. Davis & Meikle (0 active accession[s])
Pisum sativum L. subsp. elatius (M. Bieb.) Asch. & Graebn. var. elatius (M. Bieb.) Alef. (9 active accession[s])
Pisum sativum L. subsp. elatius (M. Bieb.) Asch. & Graebn. var. pumilio Meikle (29 active accession[s])
Pisum sativum L. subsp. jomardii (Schrank) Kosterin (0 active accession[s])
Pisum sativum L. subsp. sativum (713 active accession[s])
Pisum sativum L. subsp. sativum var. arvense (L.) Poir. (78 active accession[s])
Pisum sativum L. subsp. sativum var. macrocarpum Ser. (1 active accession[s])
Pisum sativum L. subsp. sativum var. sativum (862 active accession[s])
Pisum sativum L. subsp. transcaucasicum Govorov (19 active accession[s])
Autonyms (not in current use), synonyms and invalid designations
Heterotypic Synonym(s)
Pisum sativum L. subsp. tibetanicum ined.

Common names
LanguageNameAlternate namenoteseqCitation
Englishpea  1Wiersema, J. H. & B. León. 1999. World economic plants: a standard reference CRC Press, Boca Raton, FL.
Italianpisello  2International Seed Testing Association. 1982. A Multilingual Glossary of Common Plant-Names 1. Field crops, grasses and vegetables, ed. 2.
Swedishärt  2Aldén, B., S. Ryman, & M. Hjertson. 2012. Svensk Kulturväxtdatabas, SKUD (Swedish Cultivated and Utility Plants Database; online resource)
Transcribed Chinesewan dou  2Wu Zheng-yi & P. H. Raven et al., eds. 1994-. Flora of China (English edition).
Transcribed Koreanwandu  2Mun-Chan, B. et al. 1986. A checklist of the Korean cultivated plants. Kulturpflanze 34:118.
Annotations
Other Links
Actions
Pathogens
Vouchers
Citations
  • Holdsworth, W. L., E. Gazave, Peng Cheng, J. R. Myers, M. A. Gore, C. J. Coyne, R. J. McGee, & M. Mazourek. 2017. A Community Resource for Exploring and Utilizing Genetic Diversity in the USDA Pea Single Plant Plus Collection. Hort. Res. (London) 4:e17017. DOI: 10.1038/hortres.2017.17. Note: Horticulture Research Number of accessions cited: 361
  • Zong, Xuxiao, Jianping Guan, Qingchang Liu, Shumin Wang, R. R. Redden, & R. Ford. 2008. Genetic diversity and core collection of alien Pisum sativum L. germplasm. Acta Agron. Sin. 34:1518-1528. Number of accessions cited: 271
  • Zong, Xuxiao, Jianping Guan, Shumin Wang, & Qingchang Liu. 2008. Genetic diversity among Chinese pea (Pisum sativum L.) landraces as revealed by SSR markers. Acta Agron. Sin. 34:1330-1338. Number of accessions cited: 271
  • Zong, Xuxiao, R. Ford, R. R. Redden, Jianping Guan, & Shumin Wang. 2009. Identification and analysis of genetic diversity structure within Pisum genus based on microsatellite markers. Sci. Agric. Sin. 42:36-46. Number of accessions cited: 271
  • Zong, Xuxiao, R. J. Redden, Qingchang Liu, Shumin Wang, Jianping Guan, Jin Liu, Yanhong Xu, Xiuju Liu, Jing Gu, Long Yan, P. Ades, & R. Ford. 2009. Analysis of a diverse global Pisum sp. collection and comparison to a Chinese local P. sativum collection with microsatellite markers. Theor. Appl. Genet. 118:193-204. Number of accessions cited: 271
Pedigree
Intellectual Property Rights
FAO Standard Material Transfer Agreement. Issued: 14 Jun 2012.

Observations

Phenotype Data

CategoryDescriptorDescriptionValueSample SizeStudyInventoryAvailability
GROWTHFlower heightHeight measured in centimeters from the ground to the first flower13366PEA.2018.SHOUSEW6 44717 2016i SDNot Available
GROWTHGrowth habitGeneral growth habit of the accession T - T = Tall66PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYNode Number to First FlowerA count from the second trifid bract as one, up to and including the first flowering node when 50% of the plants in a planting are flowering. Expressed as an average of five randomly chosen plants (in integers).157PEA.CORE.FROM.CHINAW6 44717 2012o SDNot Available
MORPHOLOGYFlower ColorFlower colorP - Pigmented7PEA.CORE.FROM.CHINAW6 44717 2012o SDNot Available
MORPHOLOGYFlower ColorFlower colorP - Pigmented66PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYFlowers per PeduncleMaximum number of flowers per peduncle.17PEA.CORE.FROM.CHINAW6 44717 2012o SDNot Available
MORPHOLOGYFlowers per PeduncleMaximum number of flowers per peduncle.266PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYPod LengthAverage length of pods from first reproductive node of five different plants at full pod stage recorded in centimeters. Expressed to one decimal place.4.866PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYSeeds per PodFully develops on first reproductive node. Average number of seeds from five longest pods, each from five different plants. Expressed to one decimal place.5.666PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYLeaflet MorphologyLeaflet morphologyN - Normal66PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYStipulesStipulesN - Normal66PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYStem FasciationStem fasciationN - No66PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYSeed weight 100Weight of 100 seeds in grams.10 PEA.SEEDWEIGHT.WRPISW6 44717 2014i SDNot Available
MORPHOLOGYPods per plantNumber of pods per plant averaged766PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYPeducle lengthPeduncle length in millimeters6366PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYPeducle lengthPeduncle length in millimeters766PEA.2018.SHOUSEW6 44717 2016i SDNot Available
MORPHOLOGYStipule base has colored ringBase of the stipule has a colored ring, often redish or purplish redY - Has colored rings around the base of the stipule66PEA.2018.SHOUSEW6 44717 2016i SDNot Available
PHENOLOGYDays to flowerNumber of days from sowing seed to first observed flower6866PEA.2018.SHOUSEW6 44717 2016i SDNot Available
SUBSETChinese Pisum CoreA flag to indicate the accession is part of the core subset from ChinaY - Yes, The accessions is part of the core subset from China PEA.CORE.FROM.CHINAW6 44717 2012o SDNot Available
SUBSETPisum Genetic DataAccessions with Genetic DataSNP.PSP.PLUS.COLLECTION.2017  A ZIP'ed TEXT file with the markers and data (7.3 Mb in size)

A ZIP'ed TEXT file with the markers and data in VCF file suffix (28 Mb in size)

Abstract:
Globally, pea (Pisum sativum L.) is an important temperate legume crop for food, feed, and fodder, and many breeding programs exist to develop cultivars adapted to these end uses. In order to manage and utilize genetic resources for pea improvement, the USDA Pea Single Plant Plus Collection (PSPPC), which contains 431 Pisum accessions with morphological, geographic, and taxonomic diversity, was assembled. To maximize the value of this collection for trait mapping and genomics-assisted breeding projects, detailed genetic characterization was performed. To that end, genotyping-by-sequencing―a cost-effective method for de novo SNP marker discovery―was used to generate 66 591 high-quality SNPs. These data allowed us to identify accessions divergent from mainstream breeding germplasm that could serve as sources of novel, favorable alleles. In particular, a group of accessions from Central Asia appeared nearly as diverse as a sister species, P. fulvum, and subspecies, P. sativum subsp. elatius. Accession genotypes can be paired with new and existing phenotype data for trait mapping; as proof-of-concept, Mendel’s A gene controlling flower color was localized to its known position. SNP data were also used to define a smaller core collection of 108 accessions with similar levels of genetic diversity as the entire PSPPC, resulting in a smaller germplasm set for research screening and evaluation under limited resources. Taken together, the results presented in this study along with the release of a publicly available SNP data set comprise a valuable resource for supporting worldwide pea genetic improvement efforts.
Michael Mazourek, Plant Breeding and Genetics Section, School of Integrative Plant Science, Cornell University, Ithaca, NY 14853, USA Email: mm284@cornell.edu Phone: 607-254-7256 Fax: 607-255-6683
">PEA.SNP.PSP.PLUS.COLLECTION.2017		 Not Available