Актуальні напрями та досягнення світової селекції сортів нуту стійких до несприятливих біо- та абіотичних чинників

Автор(и)

DOI:

https://doi.org/10.30835/2413-7510.2016.87609

Ключові слова:

нут, селекція, сорт, зразок, посухостійкість, ранньостиглість, крупнонасіннєвість, аскохітоз

Анотація

У статі наведено огляд основних напрямів селекції нуту, таких, як посухостійкість, стійкість до хвороб, ранньостиглість, висока якість насіння та урожайність,  комплекс цінних ознак, координована селекція на підвищення бобово-ризобіального симбіозу. Представлено останні досягнення вчених-селекціонерів у створенні нових сортів, що вирішують провідні задачі поширення виробництва нуту в світі

Посилання

Gaur PM, Gowda CLL, Knights EJ, Warkentin T, Açikgez N, Yadav SS, Kumar J. Breeding achievments. In: Yadav SS, Redden RJ, Chen W, Sharma B. Checkpea breeding and management. 2006. P. 391–417.

Consultative Group for International Agricultural Research (CGIAR). [Internet]. http://www.cgiar.org/about-us/research-centers/.

The International Center for Agricultural Research in the Dry Areas (ICARDA). [Internet]. http://www.icarda.org.

International crops researchinstitute for the semi-arid tropics. [Internet]. http://www.icrisat.org/.

Schroeder HE, Gibson AH, Oram RN, Shaikh AQ. Seed protein characterization and nitrogen fixation rates in the chickpea mutant Hyprosola and its parent. Science of food and agricultural. 1988; 44(1): 31–41. DOI: 10.1002/jsfa.2740440105.

Shah TM, Atta BM, Alam SS, ALI H, Haq MA, Hassan M. High yielding kabuli mutant chickpea (Cicer arietinum L.) variety "CM 2008". Pak. J. Bot. 2010; 42(5): 3533–3545.

KlychukDM. Detectionofvaluabletraitsinchickpeamutants (CicerarietinumL.). In: Breedingandgeneticsoflegumes: modernaspectsandprospects. Proceed. of Internat. scient. conf. 2014 June 23–26, Оdesa. Оdesа: Astroprint, 2014. P. 187–189.

GangulyM, MollaKA, KarmakarS, DattaK, DattaSK. Development of pod borer-resistant transgenic chickpea using a pod-specific and a constitutive promoter-driven fused cry1Ab/Ac gene. Theor. Appl. Genet. 2014; 127(12): 2555–2565. DOI: 10.1007/s00122-014-2397-5.

Acharjee S, Sarmah BK. Biotechnologically generating 'super chickpea' for food and nutritional security. Plant Sci. 2013: 207: 108–116. DOI: 10.1016/j.plantsci.2013.02.003.

Acharjee S, Sarmah BK, Kumarb PA, Olsenc K, Mahonc R, Moard WJ, Mooree A, Higginse TJV. Transgenic chickpeas (Cicer arietinum L.) expressing a sequence-modified cry2Aa gene. Plant Science. 2010; 178(3): 333–339.

Lawo NC, Mahon RJ, Milner RJ, Sarmah BK, Higgins TJV, Romeis J. Effectiveness of Bacillus thuringiensis-transgenic chickpeas and the entomopathogenic fungus Metarhiziumanisopliae in controlling Helicoverpa armigera (Lepidoptera: Noctuidae). Appliedandenvironmentalmicrobiology. 2008; 74(14): 4381–4389. DOI:10.1128/AEM.00484-08.

Bhagyawant SS, Srivastava N. Genetic fingerprinting of chickpea (Cicer arietinum L.) germplasm using ISSR markers and their relationships. African Journal of Biotechnology. 2008; 7(24): 4428–4431. DOI:10.5897/AJB08.973.

Ahmad Z, Mumtaz AS, Nisar M, Khan N. Diversity analysis of chickpea (Cicer arietinum L.) germplasm and its implications for conservation and crop breeding. Agricultural Sciences. 2012; 3(5): 723–731. DOI.org/10.4236/as.2012.35087.

Varshney RK,Kudapa H,Roorkiwal M,Thudi M,Pandey MK,Saxena RK,Chamarthi SK, Mohan SM, Mallikarjuna N, Upadhyaya H,Gaur PM,Krishnamurthy L,Saxena KB,Nigam SN,Pande S. Advances in genetics and molecular breeding of three legume crops of semi-arid tropics using next-generation sequencing and high-throughput genotyping technologies. J. Biosci.2012;37(5): 811–20.

CicArMiSatDB: the chickpea microsatellite database. [Internet]. http://cicarmisatdb.icrisat.org.

Doddamani D, Katta MAVSK, Khan AW, Agarwal G, Shah TM, Varshney RK. CicArMiSatDB: the chickpea microsatellite database/BMC Bioinformatics. 2014. [Internet]. http://www.biomedcentral.com/1471-2105/15/212.

Doddamani D, Khan AW, Katta MAVSK, Agarwal G, Thudi M, Ruperao P, Edwards D, Varshney RK. CicArVarDB: SNP and InDel database for advancing genetics research and breeding applications in chickpea. Database, 2015, 1–7. DOI: 10.1093/database/bav078.

Gaur PM, Jukanti AK, Varshney RK. Impact of genomic technologies on chickpea breeding strategies. Agronomy. 2012; 2: 199–221. DOI:10.3390/agronomy2030199.

Gaur PM, Thudi M, Samineni S, Varshney RK. Advances in chickpea genomics // Legumes in the Omic Era. ICRISAT, 2014. P. 73–94. DOI: http://dx.doi.org/10.1007/978-1-4614-8370-0_4.

Chesnokov YuV, Kosolapov VM.Plant genetic resources and acceleration of the breeding process. Moscow: ООО «Ugreshskaya tipografia», 2016. 172 p.

FAOSTAT, 2016. [Internet]. http://faostat3.fao.org/compare/E.

Skytskyi VYu, Gerasymova YuI.Analysis of a chickpea collection to use it in breeding for increased technological effectiveness upon cultivation. Plant Genetic Resources. 2010; 8: 40–45.

SkytskyiVYu, ShevchenkoAM, StepanovaTYe. AnalysisofchickpeacollectionaccessionsforperformanceandsuitabilityforbreedingintheEastofUkraine.PlantGeneticResources. 2009; 7: 134–140.

Vandemark G, Guyb SO, Chena W, McPheec K, Pfaffa J, LauverbM, Muehlbauera FJ.Registration of ‘Nash’ Chickpea.Journal of Plant Registrations. 2015; 9(3): 275–278. DOI:10.3198/jpr2014.07.0047crc.

Gowda CLL., UpadhyayaHD, DronavalliN, Singh S. Identification of large-seeded high-yielding stable kabuli chickpea germplasm lines for use in crop improvement.Crop Science. 2010; 51(1): 198–209. DOI:10.2135/cropsci2010.01.0078.

BushulyanOV, PasichnykSM, SichkarVI. Promisingchickpeagenepoolwithincreasedseedsize. In: Breedingandgeneticsoflegumes: modernaspectsandprospects. Proceed. of Internat. scient. conf. 2014 June 23–26, Оdesa. Оdesа: Astroprint, 2014. P. 106–108.

MolodchenkovaOO, AdamovskayaVG, KartuzovaTV, BezkrovnayaLYa. Major biochemical ingredients of grain legume seeds determine their nutritional value. In: Breedingandgeneticsoflegumes: modernaspectsandprospects. Proceed. of Internat. scient. conf. 2014 June 23–26, Оdesa. Оdesа: Astroprint, 2014. P. 148–150.

Chiaiese P, Ohkama-Ohtsu N, MolvingL, Godfree R, Dove D, Hocart C,Fujiwara T, Higgins TJV, Tabe LM.Sulphur and nitrogen nutritioninfluence the response of chickpea seeds to an added, transgenic sink for organic sulphur. Journal of Experimental Botany. 2004; 55: 1889–1901.

Muzquiz M, Wood JA. Antinutritional factors. In: Yadav SS, Redden RJ, Chen W, Sharma B. Checkpea breeding and management. CABI, 2006. P. 143–166.

Upadhyaya HD, Salimath PM,Gowda CLL,Singh S. New early-maturing germplasm lines for utilization in chickpea improvement. Euphytica. 2007; 157(1-2): 195–208.

Saskatchewanpulsecrops. Seedingandvarietyguide. 2016.[Internet].http:// www.usask.ca/soilsncrops/conferenceproceedings/previous_years/Files/2006/2006docs/001.pdf.

NetsvetaievVP, TiutiunovSI, PravdinIV, PetrenkoAV. Chickpea – a promising legume under the changing climate in Southwestern Central Black Earth Region of RF. Zernobobovye I krupianye kultury. 2016; 2(18): 137–143.

DevasirvathamV,TanDKY, GaurPM, RajuTN, TrethowanRM. High temperature tolerance in chickpea and its implications for plant improvement. Crop and Pasture Science. 2012; 63(5): 419–428.DOI.ORG/10.1071/CP11218.

DevasirvathamV, GaurPM,MallikarjunaN, TokachichuRN, TrethowanRM, TanDKY. Effect of high temperature on the reproductive development of chickpea genotypes under controlled environments. Functional Plant Biology. 2012; 39(12): 1009–1018. DOI.ORG/10.1071/FP12033.

DevasirvathamV, GaurPM,MallikarjunaN, TokachichuRN, TrethowanRM, TanDKY. Reproductive biology of chickpea response to heat stress in the field is associated with the performance in controlled environments. Field Crops Research. 2013; 142: 9–19.

DevasirvathamV, GaurPM,TrethowanRM, TanDKY. Field response of chickpea (Cicer arietinum L.) to high temperature.Field Crops Research. 2015; 172: 59–71.

Upadhyaya HD, Dronavalli N, Gowda CLL, Singh S. Identification and evaluation of chickpea germplasm for tolerance to heat stress. Crop Science. 2011; 51(5): 2079–2094. DOI:10.2135/cropsci2011.01.0018.

BushulyanOV.Development and implementation of drought tolerant chickpea cultivars in production. Zbirnyk naukovykh prats SGI-NTsNS. 2015; 26 (66): 33–41.

TsygankovVI, BulyntsevSV, TsygankovaMY, TsygankovAV. Investigation and evaluation of the chickpea gene pool for productivity and adaptability to Western Kazakhstan. In: Genetic and varietal diversity of plants to improve people’s life quality. Proceedings of the International scientific-practical conference dedicated to the 25th anniversary of the National Plant Gene Bank of Ukraine. 2016 Jule 4–7. Кyiv: TOV «Nilan-LTD», 2016. P. 110–111.

Jumrani K,Bhatia VS. Impact of elevated temperatures on growth and yield of chickpea (Cicer arietinum L.). Field Crops Research. 2014; 164: 90–97.

RehmanAU, Malhotra RS, Betta K, Tar'an B, BueckertR, Warkentin TD. Mapping QTL associated with traits affecting grain yield in chickpea (Cicer arietinum L.) under terminal drought stress. Crop Science. 2010; 51(2): 450–463. DOI:10.2135/cropsci2010.03.0129.

Kale SM, Jaganathan D, Ruperao P, Chen C, Punna R, Kudapa H, Thudi M, Roorkiwal M, Katta MAVSK, Doddamani D, Garg V, Kishor PBK, Gaur PM, Nguyen HJ, Edwards D, Sutton T, Varshney RK. Prioritization of candidate genes in “QTL-hotspot” region for drought tolerance in chickpea (Cicer arietinum L.). Scientific Reports. 2015; 5: 1–14. DOI:10.1038/srep15296.

ThudiM, GaurPM, KrishnamurthyL, MirRR, KudapaH, FikreA, KimurtoP, TripathiS, SorenKR, MulwaR, BharadwajC, DattaS, ChaturvediSK, VarshneyRK. Genomics-assisted breeding for drought tolerance in chickpea. Functional Plant Biology. 2014; 41(11): 1178–1190.DOI.ORG/10.1071/FP13318.

Daba K, Bejiga G, Anbessa Y, Gaur PM, Kumar J, Rao BV. Chefe (ICCV 92318) A new kabuli chickpea variety for Ethiopia. SAT eJournal | ejournal.icrisat.org. 2005; 1(1): 1–2. [Internet]. http://ejournal.icrisat.org/cropimprovement/v1i1/icpn12/ v1i1chefe.pdf.

Saxena NP, Krishnamurthy L, Johansen C. Registration of a drought-resistant chickpea germplasm. Crop Science. 1993; 33(6): 1424.

Midmore D, Dunwell J, Wagstaff C, Smith S. Final report CGIAR research program on grain legumes. 2015. P. 219. [Internet]. http://grainlegumes.cgiar.org/wp-content/uploads/2016/08/GL_CCEE_Final-Report.pdf.

Jiménez-GascoMM, Navas-CortésJA, Jiménez-DíazRM. The Fusarium oxysporum f. sp. ciceris/Cicer arietinum pathosystem: a case study of the evolution of plant-pathogenic fungi into races and pathotypes. Int Microbiol. 2004; 7(2): 95–104.

Shinde DG, Babu P, Satish D, Ravikumar RL. Fusarium wilt resistance in chickpea recombinant inbred lines. Karnataka J. Agric. Sci. 2010; 23(2): 324–326.

Chaudhry MA, Ilyas MB, Muhammad F, Ghazanfar MU. Sources of resistance in chickpea germplasm against fusarium wilt. Mycopath. 2007; 5(1): 17–21.

Shevchenko AM. Organizational and methodological principles of chickpea breeding for resistance to Fusarium blight.In: Breedingandgeneticsoflegumes: modernaspectsandprospects. Proceed. of Internat. scient. conf. 2014 June 23–26, Оdesa. Оdesа: Astroprint, 2014. P. 89–91.

Singh G, Chen W, Rubiales D, Moore K, Sharma YR, Gan Y. Diseases and their management. In: Yadav SS, Redden RJ, Chen W, Sharma B. Checkpea breeding and management. CABI, 2006. P. 497–520.

KosenkoNO, BezuglaOM. Chickpea sources of adaptability to the Eastern Forest-Steppe of Ukraine. In: Proceedings of the International Scientific-Practical Conference of Young Scientists «Young Scientists-Agrarians’ Theoretical and Practical Achievements». Dnipropetrovsk, 2006. P. 22–23.

KobyzevaLN, KosenkoNO, BezuglaOM. Genetic basics of chickpea resistance (Cicer arietinum L.) to ascochyta leaf blight. Visnyk Kharkivskogo natsionalnogo agrarnogo universytetu. Biology. 2007; 3 (12): 42–48.

Reddy MV, Singh KB. Evaluation of a world collection of chickpea germplasm accessions for resistance to ascochyta blight. Plant Disease. 1984; 68(10): 900–901.

Reddy MV, Singh KB. Registration of five chickpea germplasm lines resistant to ascochyta blight. Crop Science. 1992; 32(4): 1079–1080.

Chen W, Coyne CJ, Peever TL, Muehlbauer FJ. Characterization of chickpea differentials for pathogenicity assay of ascochyta blight and identification of chickpea accessions resistant to Didymella rabiei. Plant Pathology. 2004; 53: 759–769. DOI: 10.1111/j.1365-3059.2004.01103.x.

Türkkan M, Dolar FS. Determination of pathogenic variability of Didymella rabiei, the agent of ascochyta blight of chickpea in Turkey. Turk. J. Agric. 2009; 33: 585–591.

Coram T. Identification and characterisation of genes controlling the resistance response to ascochyta blight (Ascochyta rabiei (Pass.) Labrousse) in chickpea (Cicer arietinum L.). A thesis presented in fulfilment of the requirements for the degree of Doctor of Philosophy School of Applied Sciences Biotechnology and Environmental Biology RMIT University. 2006.

Lamichhane JR, Saccardo F, Crinò P. Response of chickpea germplasms to new Italian isolates of Ascochyta rabiei. Tunisian Journal of Plant Protection. 2012; 7: 19–25.

UrreaCA, Baltenspergerb DD, Harvesona RM,Frickela GE, Koehlera AE.Registration of the chickpea germplasm PHREC-Ca-Comp. #1 with enhanced resistance to Ascochyta Blight.Journal of Plant Registrations. 2011; 5:1103–1108. DOI:10.3198/jpr2010.04.0208crg.

VandemarkG, Muehlbauera FJ, Mihovb M, Chena W, McPheec K, Chend C. Registration of CA0469C025C chickpea germplasm. Journal of plant registrations. 2014; 8(3):303–307. DOI:10.3198/jpr2013.09.0057crg.

Chickpea – finding varieties resistant to both blight and wilt. [Internet]. http://grainlegumes.cgiar.org/chickpea-finding-varieties-resistant-to-both-blight-and-wilt/.

High yielding and disease resistant chickpea varieties released in Ethiopia. http://grainlegumes.cgiar.org/high-yielding-and-disease-resistant-chickpea-varieties-released-in-ethiopia/.

BushulyanOV, SichkarVI. Chickpea. Genetics, breeding, seed production, cultivation technology.Odesa, 2009. 246 p.

Romeis J, Sharma HS, Sharma KK, Das S, Sarmah BK. The potential of transgenic chickpeas for pest control and possible effects on non-target arthropods. Crop Protection. 2004; 23(10): 923–938.

BulyntsevaSV, GridnevGA, SergeievEA, GurkinaMV, NekrasovAYu. Chickpeagenepoolandbreedingprioritytrends. In: Breedingandgeneticsoflegumes: modernaspectsandprospects. Proceed. of Internat. scient. conf. 2014 June 23–26, Оdesa. Оdesа: Astroprint, 2014. P. 102–105.

Germantseva NI, Seleznieva TV, Demyanova TV.Chickpea breeding for large seeds.Zernobobovye I krupianye kultury. 2016; 2(18): 133–137.

DidovychSV. Coordinated breeding of Mesorhizobium cicery and Cicer arietinum L. for increased genetic nitrogen-fixing potential of symbiotic system. In: Breedingandgeneticsoflegumes: modernaspectsandprospects. Proceed. of Internat. scient. conf. 2014 June 23–26, Оdesa. Оdesа: Astroprint, 2014. P. 241–243.

LobkovVT, DonskayaMV, VasilchikovAG. Increasing the effectiveness of chickpea symbiotic systems (Cicer arietinum L.). VestnikOrlovskogogosudarstvennogoagrarnogouniversiteta. 2011; 30(3): 39–42.

Popova EV, Netsvenaiev VP, Pravdin VG.Effect of pre-sowing seed inoculation with bacterial agents on performance of chickpea (Cicer arietinum L.) cultivars. Scientific Bulletin of Belgorod State University. Series. Natural Sciences. 2014; 23-194(29): 55–59.

BalashovVV, DemchenkoMM, KudinovVV. Effect of pre-sowing inoculation with rizotorphin on the development of symbiotic apparatus and chickpea grain yield. Newsletters of Nizhnevolzhsk Agro-University Complex: Science and Higher Professional Education. 2013; 1(1-1): 20–23.

Baksh A, Wahid MA, Bugti RA, Zahid MA, Ali S. Evaluation of chickpea germplasm for semi arid zones of Balochistan. Internationaljournalofagriculture&biology. 2003; 5(2): 113–116. [Internet]. /http://www.ijab.org.

MillanT,Clarke HJ, Siddique KHM, Buhariwalla HK, Gaur PM,Kumar J,Gil J,Kahl G,Winter P. Chickpea molecular breeding: New tools and concepts. Euphytica. 2006; 147(1): 81–103.

Gaur PM, Pande S, Upadhyaya HD, Rao BV. Extra-large kabuli chickpea with high resistance to Fusarium Wilt.SATeJournal | ejournal.icrisat.org. 2006; 2(1): 1–2.[Internet]. http://ejournal.icrisat.org/cropimprovement/v2i1/v2i1extralargekabuli.pdf.

BalashovAV. Peculiarities of breeding, seed production and cultivation technology of chickpea cultivars adapted to the arid conditions of the Lower Volga region. [authoabstract of dissertation]. Volgograd, 2011. 37 p.

Baytarakova KZh. Chickpea on rainfed soils of Southeast of Kazakhstan. In: System of creation of livestock forage depot via intensification of crop production and use of natural fodder lands. Proceed. of Internat. scient. conf.Almalybak: ТОО «Asyl-kitap», 2016. P. 30–33.

Kudaybergenov MS, Baytarakova KZh. Chickpea breeding for rainfed and irrigated lands of Kazakhstan. In: System of creation of livestock forage depot via intensification of crop production and use of natural fodder lands. Proceed. of Internat. scient. conf.Almalybak: ТОО «Asyl-kitap», 2016. P. 90–91.

##submission.downloads##

Опубліковано

2016-12-25

Номер

Розділ

МЕТОДИ І РЕЗУЛЬТАТИ СЕЛЕКЦІЇ