New data: 15 maps, 149 QTLs, 14548 markers (7/2020)

Chickpea:

• [QTL: 11]
  Amalraj A, Taylor J, Sutton T. A hydroponics based high throughput screening system for Phytophthora root rot resistance in chickpea (Cicer arietinum L.).. Plant methods. 2019; 15:82.

Lentil:

• [Marker: 5]
  Kumar J, Gupta S, Biradar R, Gupta P, Dubey S, Singh N. Association of functional markers with flowering time in lentil. Journal of applied genetics. 2018; 59(1):9-21.
• [Marker: 6138]
  Gupta DS, Kumar J, Gupta S, Dubey S, Gupta P, Singh NP, Sablok G. Identification, development, and application of cross-species intron-spanning markers in lentil (Lens culinaris Medik.). The Crop Journal. 2017; .
• Singh D, Singh CK, Taunk J, Tomar RSS. Genetic analysis and molecular mapping of seedling survival drought tolerance gene in lentil (Lens culinaris Medikus). Molecular breeding. 2016; 36(5):58.

Lupin:

• [QTL: 1]
  Iqbal MM, Erskine W, Berger JD, Nelson MN. Phenotypic characterisation and linkage mapping of domestication syndrome traits in yellow lupin (Lupinus luteus L.). TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik. 2020 Jul 18.

Common bean:

• [Marker: 677]
  Souza TLPO, de Barros EG, Bellato CM, Hwang E, Cregan PB, Pastor-Corrales MA. Single nucleotide polymorphism discovery in common bean. Molecular breeding. 2012; 419 - 428.
• [Marker: 116]
  Lei L, Wang L, Wang S, Wu J. Marker-Trait Association Analysis of Seed Traits in Accessions of Common Bean (Phaseolus vulgaris L.) in China.. Frontiers in genetics. 2020; 11:698.

Pea:

• [Marker: 2]
  Swisher Grimm KD, Porter LD. Development and Validation of KASP Markers for the Identification of Pea seedborne mosaic virus Pathotype P1 Resistance in Pisum sativum. Plant disease. 2020; 104(6):1824-1830.
• [Map: 1, QTL: 45, Marker: 60]
  Guindon MF, Martin E, Cravero V, Gali KK, Warkentin TD, Cointry E. Linkage map development by GBS, SSR, and SRAP techniques and yield-related QTLs in pea. Molecular breeding. 2019; 39(4):54.
• [Map: 1, QTL: 2, Marker: 157]
  Martín-Sanz A, Aparicio T, Santana JC, García P, Winter P, Caminero C, de la Vega MP. Mapping genes for resistance to bacterial blight (Pseudomonas syringae pv. pisi) in pea and identification of genes involved in resistance by DeepsuperSAGE transcriptome profiling. Euphytica. 2016; 210(3):375-392.
• [QTL: 11]
  Javid M, Noy D, Sudheesh S, Forster JW, Kaur S. Identification of QTLs associated with metribuzin tolerance in field pea (Pisum sativum L.). Euphytica. 2017; 213(4):91.
• [Map: 1]
  Beji S, Fontaine V, Devaux R, Thomas M, Negro SS, Bahrman N, Siol M, Aubert G, Burstin J, Hilbert JL, Delbreil B, Lejeune-Hénaut I. Genome-wide association study identifies favorable SNP alleles and candidate genes for frost tolerance in pea.. BMC genomics. 2020 Aug 04; 21(1):536.

Faba bean:

• [Marker: 8]
  Rebaa F, Abid G, Aouida M, Abdelkarim S, Aroua I, Muhovski Y, Baudoin JP, M'hamdi M, Sassi K, Jebara M. Genetic variability in Tunisian populations of faba bean (Vicia faba L. var. major) assessed by morphological and SSR markers. Physiology and molecular biology of plants : an international journal of functional plant biology. 2017 Apr; 23(2):397-409.
• [Map: 4, Marker: 2000]
  Carrillo-Perdomo E, Vidal A, Kreplak J, Duborjal H, Leveugle M, Duarte J, Desmetz C, Deulvot C, Raffiot B, Marget P, Tayeh N, Pichon JP, Falque M, Martin OC, Burstin J, Aubert G. Development of new genetic resources for faba bean (Vicia faba L.) breeding through the discovery of gene-based SNP markers and the construction of a high-density consensus map.. Scientific reports. 2020 Apr 22; 10(1):6790.
• [Map: 1, Marker: 348]
  Yang T, Jiang J, Zhang H, Liu R, Strelkov S, Hwang S, Chang K, Yang F, Miao Y, He Y, Zong X. Density enhancement of a faba bean genetic linkage map (Vicia faba) based on simple sequence repeats markers. Plant breeding. 2019; 138(2):207-215.
• [Map: 4, QTL: 5, Marker: 663]
  Sudheesh S, Kimber RBE, Braich S, Forster JW, Paull JG, Kaur S. Construction of an integrated genetic linkage map and detection of quantitative trait loci for ascochyta blight resistance in faba bean (Vicia faba L.). Euphytica. 2019; 215(3):42.
• [QTL: 21]
  Sallam A, Dhanapal AP, Liu S. Association mapping of winter hardiness and yield traits in faba bean (Vicia faba L.). 2016; 67(1):55-68.

Cowpea:

• [Marker: 10]
  Lioi L, Morgese A, Cifarelli S, Sonnante G. Germplasm collection, genetic diversity and on-farm conservation of cowpea [Vigna unguiculata (L.) Walp.] landraces from Apulia region (southern Italy). Genetic resources and crop evolution. 2019; 66(1):165-175.
• [Marker: 698]
  Gupta SK, Gopalakrishna T. Development of unigene-derived SSR markers in cowpea (Vigna unguiculata) and their transferability to other Vigna species. Genome. 2010; 53(7):508–523.
• [QTL: 10, Marker: 6]
  Somta P, Chen J, Yimram T, Yundaeng C, Yuan X, Tomooka N, Chen X. QTL Mapping for Agronomic and Adaptive Traits Confirmed Pleiotropic Effect of mog Gene in Black Gram [Vigna mungo (L.) Hepper].. Frontiers in genetics. 2020; 11:635.
• [Map: 1, QTL: 34, Marker: 376]
  Garcia-Oliveira AL, Zana Zate Z, Olasanmi B, Boukar O, Gedil M, Fatokun C. Genetic dissection of yield associated traits in a cross between cowpea and yard-long bean (Vigna unguiculata (L.) Walp.) based on DArT markers.. Journal of genetics. 2020; 99.