Peculiarities of the sunflower breeding for resistance to broomrape (orobanche cumana wallr.)
DOI:
https://doi.org/10.30835/2413-7510.2022.271748Keywords:
sunflower, breeding, resistance, broomrape, virulence, races, genesAbstract
Purpose and Objectives. Our purpose was to find available information on the sunflower breeding for resistance to the broomrape. To achieve this purpose, we solved following tasks: to review publications covering the history and current state of research into the subject; find out the specifics of such studies; and to highlight the main unresolved issues for the organization of further work.
Materials and Methods. Publications of Ukrainian and foreign scientists became the material for the study: articles in journals and conference abstracts.
Results and Discussion. In the article, publications covering domestic and foreign studies of the peculiarities of sunflower breeding for resistance to the parasitic plant Orobanche cumana Wallr. are collected and reviewed. The changes in the race composition of the parasite since the beginning of the 19th century, which have accelerated in recent years, are described. Experiments and breeding for resistance to the broomrape began in 1909-1913, when there was only one (the first) broomrape race A. Currently, the existence of the seventh race (G) and the broomrape biotypes affecting race G-resistant sunflower accessions has been recognized in the world. During the last 20 years, the appearance of new broomrape races was observed in the countries where sunflowers are grown with violations of crop rotation requirements.
Marking resistance genes of domestic plants and determining the molecular polymorphism of both host and parasitic plants are important problems of genetics, solving of which is aimed at the improvement of sunflowers in terms of resistance to the broomrape. The identification of genes of resistance to the broomrape and the development of methods for their marking are discussed. Studies in the genetics of resistance to O. cumana are limited by few relevant molecular markers. Scientists announced that they had onstructed a molecular genetic map of linkage groups with the Or7 gene of resistance to race G. Genetic studies of the broomrape as a plant are mainly focused on the structure and genetic diversity of parasite populations. The broomrape aggressiveness depends on weather and climate, so an increase in temperatures and lack of precipitation can lead to the broomrape spread over large areas. Scientists adapt the phytotron test for resistance to the broomrape to modern equipment, developing certain methodological subtleties. In addition, new methods of evaluation are developed: histological and molecular genetic assessments
Conclusions. The sunflower broomrape is one of the main biotic factors that harm the crop fields. The peculiarity of the breeding for resistance is associated with continuous formation of new races of the parasite. Studies by scientists from different countries on the formation of new physiological races of the broomrape indicate the annually growing threat from the parasite, the need for constant monitoring of broomrape populations and the continuous development of research in this direction. Several genes of resistance to the broomrape have been identified; methods of their marking have been developed; this ensures success in improving the existing and developing new progressive approaches in the sunflower breeding for resistance to the parasite. The specificity of control of resistance to the broomrape, which is determined by genetic factors, was established. Thus, genetic methods are the best ones to fight against the broomrape. However, inheritance patterns of resistance to new, virulent, widespread in Ukraine broomrape races are not described in the literature, though it is important for the creation of commercial hybrids. The relationships between resistance to new virulent broomrape races, which are common in Ukraine, and valuable economic characteristics in F1 hybrids should be also studied. Taking into account the recent climatic changes, in particular a rise in air temperatures and consequences of this global process, one can predict an increase in the intensity of damage to sunflowers by the parasite, which prompts breeders of the crop to combine resistance to adverse abiotic factors and resistance to the broomrape
References
Zhyhailo O.L., Zhyhailo T.S. Assessment of the impact of climatic changes on the agroclimatic conditions of sunflower cultivation in Ukraine. Ukrainskyi Hidrometereolohichnyi Zhurnal. 2016. No. 17. P. 86–92. [in Ukrainian]
Kalenska S.M., Ryzhenko A.S. Assessment of the impact of weather conditions on the cultivation of sunflower (Heliantus annuus L.) hybrids in the Northern Left Bank Forest-Steppe of Ukraine. Plant Varieties Studying and Protection. 2020. Vol. 16. No. 2. P. 162–173. DOI: 10.21498/2518-1017.16.2.2020.209229. [in Ukrainian]
Kyrychenko V.V., Makliak K.M., Kolomatska V.P. et al. Priority trends in the domestic breeding of sunflowers. Problems of Agrarian Production at the Current Stage and Ways to Solve Them: Abstract book of the International Scientific and Practical Conference Dedicated to the Jubilee Dates of Outstanding Plant Scientists: the 130th anniversary of the birth of Doctor of Biological Sciences, Professor Lev Mykolaiovych Delone and the 120th anniversary of the birth of Candidate of Agricultural Sciences Sofiia Mykhailivna Fridenthal (July 1-2, 2021). Plant Production Institute named after V.Ya. Yuriev of NAAS. Kharkiv, 2021. 414 p. [in Ukrainian]
Habimana S., Nduwumuremyi A., Chinama R. Management of Оrobanche in field crops. A review. Journal of Soil Science and Plant Nutrition. 2014, 14(1), P. 43–62.
Mitkov A., Yanev M., Neshev N., Tonev T., Joiţa-Păcureanu M., Cojocaru F. Efficacy against broomrape and selectivity of imazamox-containing herbicides in sunflower. Romanian agricultural research. 2019. NO. 36. P. 201–207.
Demurin Ya.N., Pikhtyaryova A.A., Tronin A.S., Levutskaya A.N., Kostevich S.V., Rubanova O.A., Frolov S.S. Herbicide-resistant sunflower hybrid Klip. Maslichnyye Kultury. 2020. Issue 1 (181). P. 128–131. [in Russian]
Detsyna A.A., Khatnyanskiy V.I., Illarionova I.V., Demurin Ya.N., Pikhtyaryova A.A. Herbicide-resistant confectionery sunflower variety Aladdin. Maslichnyye Kultury. 2021. Issue 4 (188). P. 96–98. [in Russian]
Lushchak V.I., Matviishyn T.M., Husak V.V. et al. Pesticide toxicity: a mechanistic approach. 2018. EXCLI J 17:1101–1136.
Baucom R.S. Evolutionary and ecological insights from herbicideresistant weeds: what have we learned about plant adaptation, and what is left to uncover? New Phytol. 2019. 223:68–82.
Fernandes-Martinez J.M., Perez-Vich B., Velasco L. Sunflower Broomrape (Orobanche cumana Wallr.). In Sunflower: Chemistry, Production, Processing and Utilization. Eds: Enrique Martines-Force, Nurchan T. Dunford, Joaquin J. Salas). AOCS PRESS Urbana Illinois, 2015. P. 129-156.
Teryokhin E.S. Reproductive biology of broomrape weeds (reference guide). L.: Nauka. 1988. 143 p. [in Russian]
Pustovoyt V.S. Sunflower breeding and seed production. Science to agriculture. Plant production. Moscow: Selkhozgiz. 1963, P. 205–222. [in Russian]
Pustovoyt V.S. Sunflower breeding. In: Sunflower. Krasnodar. 1940, P. 7–43. [in Russian]
Pustovoyt V.S. Results of work of the All-Union Scientific-Research Institute of Oil Crops on sunflower breeding. Selektsiya i Semenovodstvo. 1937. Issue I. P. 12–20. [in Russian]
Roshchin A.M. Study of the broomrape race composition with regard to sunflower breeding. Report of the All-Union Scientific-Research Institute of Oil Crops. 1940, P. 301–334. [in Russian]
Strelyayeva N.I. Germination of broomrape seeds under artificial conditions. Selskokhozyaystvennaya Biologiya. 1978. Vol. 13. No. 3. P. 462–463. [in Russian]
Pustovoyt V.S. Selected works: Development of methods for sunflower breeding and seed production. M.: Kolos. 1966, P. 86–100. [in Russian]
Zhdanov L.A. Sunflower and broomrape. Bulletin of a Session of the All-Union Scientific-Research Institute of Oil Crops. Voronezh, 1933, P. 12–15. [in Russian]
Beylin I.G. Race composition of O. cumana Wallr. on the sunflower: report on work for 1940. Krasnodar: All-Union Scientific-Research Institute of Oil Crops, 1940, P. 623–635. [in Russian]
Beylin I.G. Physiological races of parasites, their theoretical and practical significance. In memory of Academician A.A. Rikhter. Tridy Instituta Fiziologii Rasteniy AN SSSR, 1948. Vol. 6. No. 2. P. 58–62. [in Russian]
Zhdanov L.A. The results of oilseed breeding on the Don. In: Achievements of Domestic Breeding. M.: Kolos. 1967, P. 231–242. [in Russian]
Zhdanov L.A., Bartsinskiy R.M., Lyashchenko I.F. Sunflower biology. Rostov-on-Don, 1950. 103 p. [in Russian]
Plachek E.M. Sunflower immunity to the broomrape. Izvestiya Saratovskoy Oblastnoy Selskokhozyaystvennoy Opytnoy Stantsii. 1921. Issue 3. P. 65–82. [in Russian]
Pustovoyt V.S. Selected works: Breeding. Seed production and some issues of sunflower farming. M.: Kolos. 1966. 368 p. [in Russian]
Bukherovich P.G. Study of the virulence of broomrapes of different origins and resistance of several sunflower varieties to it. Sbornik Rabot po Maslichnym Kulturam. Maykop. 1966. Issue 3. P. 22–26. [in Russian]
Bukherovich P.G. Identification of the race composition of the sunflower broomrape of Moldovan origin. Sbornik Rabot po Maslichnym Kulturam. Krasnodar, All-Union Scientific-Research Institute of Oil Crops. 1967. Issue 1. P. 10. [in Russian]
Burlov V.V. Inheritance of resistance to a local race of the broomrape (Orobanche cumana Wallr.) in the sunflower. Genetika. 1976. Vol. 12. No. 2, P. 44–51. [in Russian]
Geshele E.E., Pustovoyt G.V. Genetic basics of sunflower breeding for immunity. In: Genetics and Breeding of Disease-Resistant Varieties of Domestic Plants. M.: Nauka. 1974, P. 226–244. [in Russian]
Pustovoyt G.V. Interspecies hybridization as a method of sunflower breeding for group immunity. Genetika. 1966. No. 1. P. 59–69. [in Russian]
Pustovoyt G.V. Sunflower breeding for group immunity via interspecies hybridization. Doklady VASKhNIL. 1964. No. 1. P. 2–7. [in Russian]
Tolmachyov V.V. Genetic control of sunflower resistance to the broomrape - Orobanche cumana Wallr. V.V. Tolmachyov. Thesis for the Academic Degree of Candidate of Biological Sciences. – L., 1990. –148 p. [in Russian]
Vranceanu A.V., Tudor V.A., Staeneseu F.M., Pirvu N. Virulence groups of Orobanche cumana Wallr. differentials hosts and resistance source genes in Sunflower. In: Procuedings of the 9th International Sunflower Conference. Torremolinos, Spain, 8-13 June, 1980. P. 74-80.
Fernandes-Martinez J.M., Perez-Vich B., Akhtouch B., Velasco L., Munoz-Ruz J., Melero-Vara J.M., Dominguez J. Registration of four sunflower germplasms resistant to race F of broomrape. Crop Sci. 2004. Vol. 44. P. 1033–1034.
Akhtouch B., del Moral., Leon A., Velasco L., Fernandes-Martnez J. M., Perez-Vich B. Genetic study of recessive broomrape resistance in sunflower. Eyphytica. 2016. Vol. 209. No. 2. P. 419–428.
Pacureanu-Joita M., Procopovci E., Sovo E., Nastace K. The impad of the new races of Broomrape (Orobanche cumana Wallr.) parasite in sunflower crop in Romania. Proc. 17th International Sunflower Conference, Cordoba, Spain, June 8-12, 2008. Vol. 1. P. 255-280.
Fernandes-Martinez J.M., Perez-Vich B., Velascko L. Sunflower broomrape (Or. cumana Wallr.). In Sunflower: Chenisfy Production, Processing and Utilization I Eds: Enrigue Martines – Force, Narchan T., Dunford, Joaquin I. Satas. – AOCS PRESS Urban Illiouis. 2015. P. 129-156.
Melero-Vara J.M., Dominguez J., Fernandes-Martinez J.M., Update on sunflower broomrape situation in Spain: racial status and sunflower breeding for resistance. Helia. 2000. Vol. 23. No. 33. P. 45–55.
Burlov V.V. Effectiveness of the Or genes in ensuring resistance of the sunflower to new races of the broomrape (Orobanche cumana Wallr.). Selektsiia ta Nasinnytstvo, 2010. Issue 98. P. 28-37. [in Ukrainian]
Makliak K.M., Kyrychenko V.V. Resistance of sunflower starting material to new races of the broomrape (Orobanche cumana Wallr.). Selektsiia ta Nasinnytstvo. 2012. Issue 102. P. 16–21.
Khablak S.H., Abdullaieva Ya.A. Race composition of the broomrape (Orobanche sumana Wallr.) in sunflower fields in the northern steppe of Ukraine. Visnyk Ahrarnoi Nauky Prychornomoria. 2013. Issue 3. P. 116–121. [in Ukrainian]
Kaya Y. The situation of broomrape infestation, control methods in the sunflower production area in Turkey. In: Third International symposium on Broomrape (Orobanche spp.) in sunflower. Cordoba (Spain), 03 to 06 June 2014. Abstract, P. 10.
Škorić D., Joiţa-Păcureanu M., Gorbachenko F., Gorbachenko O., Maširević S. Dynamics of change in broomrape populations (Orobanche cumana Wallr.) in Romania and Russia (Black Sea area). Helia. 2021. 44(74). P. 1–14. https://doi.org/10.1515/helia-2020-0025.
Gorbachenko F.I., Usatenko T.V., and Gorbachenko O.F. Results and prospects for creation of high-productive varieties and hybrids of sunflower tolerant to infection (Orobanche cumana Wallr.). Taurida Herald of the Agrarian Sciences. 2018. 1: 39–50.
Li Z.F., Ji S.X., Li Q.X., et al. Preliminary report on the discovery of sunflower broomrape in Heilongjiang Province. Phytosanitary. 5. 1982. P. 28–30.
Dong B.C., Sha H.L. Identification of the races of Orobanche cumana Wallr. in Jilin Province. Chin Oilseeds. 18(1). 1996. P. 54–56.
Ma D.N., Wan X.Z. Research report on distribution of physiological races of Orobanche cumana Wallr. in 2014 in Northern China in 2014. Ningxia J Agri For Sci Tech. 56(7). 2015. P. 45–47.
Lu W., Li L., Li S.K., et al. Virulence determination and field efficacy evaluation of water-soluble trifluralin nanoparticles against Orobanche cumana. Plant Prot. 45(3). 2019. P. 237–240.
Bai Q.J., Yun X.P., Gao Z.M., et al. The occurrence and control techniques of sunflower broomrapes in Inner Mongolia. Inn Mong Agric Sci Technol. 1. 2013. P. 75–76.
Shi B, Zhao J. Recent progress on sunflower broomrape research in China. OCL 27: 30. 2020. https://doi.org/10.1051/ocl/2020023.
Clapco S. Virulence and aggressiveness of some sunflower broomrape populations belonging to different countries. Scientific Papers. Series A. Agronomy. Vol. LXIV, No. 1. 2021. P. 266–272.
Molinero-Ruiz M. L. and Melero-Vara J. M. Virulence and aggressiveness of sunflower broomrape (Orobanche cumana) populations overcoming the Or5 gene. In: G.J. Seiler, (ed), Proc. Int. Sunflower Conf., Far go, ND, USA. 2005. P. 165–169.
Imerovski I., Dimitrijevic A., Miladinovic D., Dedic D., Jocic S., Miklic V. Molecular profiles of sunflower lines resistant to broomrape (Orobanche сumana Wallr.). International Symposium on Broomrape (Orobanche spp.) in Sunflower. Chisinau, Republic of Moldova. August 25-27. 2011. P. 25.
Solodenko A.Ye., Sanalatiy A.V., Tolmachyov V.V., Vedmedeva K.V., Sivolap Yu.M. Marking of the broomrape resistance Or3 gene in the sunflower. Tsitologiya i Genetika. 2005, P. 9–12. [in Russian]
Pineda-Martos R., Velasco L., Pérez-Vich B. Identification, characterization, and discriminatory power of microsatellite markers in the parasitic weed Orobanche cumana. Weed Res. 54. 2014. P. 120–132.
Imerovski I., Dimitrijević A., Miladinović D., Dedić B., Jocić S., Tubić N.K., Cvejić S. Mapping of a new gene for resistance to broomrape races higher than F. Euphytica. 2016. Vol. 209. P. 281–289.
Tang S., Heesacker A., Kishore V.K., Fernandez A., Sadik E.S., Cole G., Knapp S.J. Genetic mapping of the Or5 gene for resistance to Orobanche race E in sunflower. Crop Sci. 2003. Vol. 43. P. 1021–1028.
Martín-Sanz A., Malek J., Fernández-Martínez J.M., Pérez-Vich B., Velasco L. Increased virulence in sunflower broomrape (Orobanche cumana Wallr.) populations from Southern Spain is associated with greater genetic diversity. Front Plant Sci 7:589. 2016. https://doi.org/10.3389/fpls.2016.00589/
Pineda-Martos, R., Velasco, L., Fernández-Escobar, J., Fernández-Martínez, J.M., Pérez-Vich, B. Genetic diversity of Orobanche cumana populations from Spain assessed using SSR markers. Weed Research. 53. 2013. P. 279–289.
Castejón-Muñoz, M., Suso, M. J., Romero-Muñoz, F., García-Torres, L. Isoenzymatic study of broomrape (Orobanche cernua) populations infesting sunflower (Helianthus annuus). In: Proceedings of the 5th International Symposium on Parasitic Weeds, eds J. K. Ransom, L.J. Musselman, A.D. Worsham, and C. Parker (Nairobi: International Maize and Wheat Improvement Center – CIMMYT). 1991. P. 313–319.
Gagne G., Roeckel-Drevet P., Grezes-Besset B., Shindrova P., Ivanov P., GrandRavel C., et al. Study of the variability and evolution of Orobanche cumana populations infesting sunflower in different European countries. Theor. Appl. Genet. 96. 1998. P. 1216–1222.
Pineda-Martos R., Velasco L., Pérez-Vich B. Identification, characterization, and discriminatory power of microsatellite markers in the parasitic weed Orobanche cumana. Weed Res. 54. 2014. P. 120–132.
Guchetl S. Z., Antonova T. S., Tchelustnikova T. A. Genetic similarity and differences between the Orobanche cumana Wallr. populations from Russia, Kazakhstan, and Romania revealed using the markers of simple sequence repeat. Russ. Agric. Sci. 40. 2014. P. 326–330.
Molinero-Ruiz M.L., García-Carneros A.B., Collado-Romero M., Raranciuc S., Domínguez J., Melero-Vara J.M. Pathogenic and molecular diversity in highly virulent populations of the parasitic weed Orobanche cumana from Europe. Weed Res. 54. 2014. P. 87–96.
Calderón-González Á, Pouilly N, Muños S, Grand X, Coque M, Velasco L., Pérez-Vich B. An SSR-SNP linkage map of the parasitic weed Orobanche cumana Wallr. including a gene for plant pigmentation. Front. Plant Sci. 10:797. 2019.
Rodríguez-Ojeda M.I., Velasco L., Alonso L.C., Fernández-Escobar J., Pérez-Vich B. Inheritance of the unpigmented plant trait in Orobanche cumana. Weed Res. 51. 2011. P. 151–156.
Rodríguez-Ojeda M. I., Pineda-Martos R., Alonso L. C., Fernández-Escobar J., Fernández-Martínez J. M., Pérez-Vich B., et al. A dominant avirulence gene in Orobanche cumana triggers Or5 resistance in sunflower. Weed Res. 53. 2013. P. 322–327.
Coque M., André T., Giménez R., Archipiano M., Polovynko L., Tardin M.C. et al. Study of Orobanche cumana genetic diversity. Proceedings of the 19th International Sunflower Conference, eds Y. Kaya and S. Hasancebi (Paris: International Sunflower Association). 2016. 734 p.
Duca M., Joiţa-Păcureanu M., Port A., Martea R., Boicu A., Rîșnoveanu L., Clapco S. Genetic diversity analysis of sunflower broomrape populations from republic of Moldova using ISSR markers. Romanian Agricultural Research. NO. 37. 2020. P. 89–97.
Duca M., Acciu A., Clapco S. Distribuția geografică și caracteristica unor populații de O. cumana din Republica Moldova. Journal of Academy of Sciences of Moldova. Life Sciences. 2(332). 2017. P. 65–76.
Duca M., Boicu A. Morphological diversity of seeds in O. cumana accessions from Republic of Moldova. Helia. 40(67). 2017. P. 161–165.
Benharrat H., Veronesi C., Theodet C., Thalouarn P. Orobanche species and population discrimination using intersimple sequence repeat (ISSR). Weed Res. 42. 2002. P. 470–475.
Pineda-Martos R., Velasco L., Fernández-Escobar J., Fernández-Martínez J.M., Pérez-Vich B. Genetic diversity of Orobanche cumana populations from Spain assessed using SSR markers. Weed Research. 53. 2013. P. 279–289.
Guchetl S., Antonova T., Tchelustnikova T. Interpopulation genetic differentiation Orobanche cumana Wallr. from Russia, Kazakhstan and Romania using molecular genetic markers. Helia. 37(61). 2014. P. 181–191.
Duca M., Clapco S., Nedealcov M., Dencicov L. Influence of environmental conditions on the virulence and distribution of Orobanche cumana Wallr. in the Republic of Moldova. OCL 26: 3. 2019. https://doi.org/10.1051/ocl/2018049.
Lyra D., Kalivas D., Economous G. A large-scale analysis of soil and bioclimatic factors affecting the infestation level of tobacco (Nicotiana tabacum L.) by Phelipanche species. Crop Prot. 83. 2016. P. 27–36.
Song W.J., Zhou W.J., Jin Z.L., et al. Germination response of Orobanche seeds subjected to conditioning temperature, water potential and growth regulator treatments. Weed Res. 45. 2005. P. 467–476.
Ephrath J.E., Eizenberg H. Quantification of the dynamics of Orobanche cumana and Phelipanche aegyptiaca parasitism in confectionery sunflower. Weed Resist. 50. 2010. P. 140–152.
Mohamed K.I., Papes M., Williams R., Benz B.W., Reterson A.T. Global invasive potential of 10 parasitic witch weeds and related Orobanchaceae. AMBIO: J Hum Environ. 35(6). 2006. P. 281–288.
Masirevic S., Medic-Pap S. Broomrape in Serbia from its occurrence till today. Helia. 32 (51). 2009. P. 91–100.
Vear F. Changes in sunflower breeding over the last fifty years. OCL 23(2): D202. 2016.
Pérez-Vich B., Velasco L., Rich P.J., Ejeta G. Marker-assisted and physiology-based breeding for resistance to root parasitic Orobanchaceae. In: Joel D.M., Gressel J., Musselman L.J. (eds) parasitic Orobanchaceae. Parasitic mechanisms and control strategies. Springer. Berlin, Heidelberg. 2013. P. 369–391. https://doi.org/10.1007/978-3-642-38146-1_21.
Velasco L., Pérez-Vich B., Yassein A.A.M., Jan C.C., Fernández-Martínez J.M. Inheritance of resistance to sunflower broomrape (Orobanche cumana Wallr.) in a interspecific cross between Helianthus annuus and Helianthus debilis subsp. tardiforus. Plant Breed. 121. 2012. P. 220–221. https://doi.org/10.1111/j.1439-0523. 2011.01915.x.
Imerovski I., Dimitrijević A., Miladinović D., Dedić B., Jocić S., Tubić N.K., Cvejić S. Mapping of a new gene for resistance to broomrape races higher than F. Euphytica. 2016. Vol. 209. P. 281–289.
Imerovski I., Dedić B., Cvejić S., Miladinović D., Jocić S., Owens G.L., Tubić N.K., Rieseberg L.H. BSA-seq mapping reveals major QTL for broomrape resistance in four sunflower lines. Mol. Breeding. 2019. Vol. 39. P. 41. https://doi.org/10.1007/s11032- 019-0948-9.
FernándezAparicio M., del Moral L., Muños S, Velasco L., PérezVich B. Genetic and physiological characterization of sunflower resistance provided by the wildderived OrDeb2 gene against highly virulent races of Orobanche cumana Wallr. Theoretical and Applied Genetics. 2021. https://doi.org/10.1007/s00122-021-03979-9.
Martín-Sanz A., Malek J., Fernández-Martínez J.M., Pérez-Vich B., Velasco L. Increased virulence in sunflower broomrape (Orobanche cumana Wallr.) populations from Southern Spain is associated with greater genetic diversity. Front Plant Sci. 7:589. 2016. https://doi.org/10.3389/fpls.2016.00589/
Amsellem Z., Barghouthi S., Cohen B., et al. Recent advances in the biocontrol of Orobanche (broomrape) species. BioControl. 46 (2). 2001. P. 211–228.
He F.L., Huang C.Q., Yin K.X. et al. Research on germination mechanism of Orobanche cumana Wallr. Crops. 28(6). 2012. P. 105–110.
Yixiao Zhanga, Jietian Sua, Xiaopeng Yunb, Wenlong Wua, Shouhui Weia, Zhaofeng Huanga, Chaoxian Zhanga, Quanjiang Baib and Hongjuan Huanga. Molecular mechanism of the parasitic interaction between Orobanche cumana Wallr. and sunflowers. Vol. 17, No. 1. 2022. P. 549–561. https://doi.org/10.1080/17429145.2022.2062061.
Panchenko A.Ya. Early diagnostics of broomrape resistance in breeding and improving seed production of sunflower. Vestnik Selskokhozyaystvennoy Nauki. 1975. Issue 2. P. 107–115. [in Russian]
Aladiina Z.K. Creation of broomrape-resistant sunflower starting material in the Eastern Forest-Steppe of the UkrSSR: Author’s synopsis of the Thesis for the Academic Degree of Candidate of Agricultural Sciences: 06.01.05. Plant Production Institute named after V. Ya. Yuriev. Kh., 1999. 16 p. [in Russian]
Echevarria-Zomeno Sira, Perez-de-Luque Alejandro, Jorrin Jesus, Maldonado M. Ana. Prehaustorial resistance to broomrape (Orobanche сumana Wallr.) in sunflower (Helianthus annuus L.): cytochemical studies. Journal of Experimental Botany. 2006. 57. No. 11. Р. 4189–4200.
Flores Berrios E., Gentzbittel L., Kayyal H., Sarrafi A., Alibert G. AFLP mapping of QTLs in vitro organogenesis traits using recombinant inbred lines in sunflower (Helianthus annuus L.). TAG Theoretical and Applied Genetics. 2000. Vol.101. No. 8. Р. 1299–1306.
Ortiz-Bustos C.M., Pérez-Bueno M.L., Barón M., Molinero-Ruiz L. Use of blue-green fluorescence and thermal imaging in the early detection of sunflower infection by the root parasitic weed Orobanche cumana Wallr. Front. Plant Sci. 8:833. 2017.
Le Ru A., Ibarcq G., Boniface M.-C., Baussart A., Muños S., Chabaud M. Image analysis for the automatic phenotyping of Orobanche cumana tubercles on sunflower roots. Plant Methods. 2021. P. 1-14. https://doi.org/10.1186/s13007-021-00779-6.
Louarn J., Boniface M.C., Pouilly N., Velasco L., Perez-Vich B., Vincourt P., Munos S. Sunflower Resistance to Broomrape (Orobanche cumana) is controlled by specifc QTLs for different parasitism stages. Front Plant Sci. 2016. https://doi.org/10.3389/fpls.2016.00590.
Duriez P., Vautrin S., Auriac M.C., Bazerque J., Boniface M.C., Callot C., Carrere S., Cauet S., Chabaud M., Gentou F., Lopez-Sendon M., Paris C., Pegot-Espagnet P., Rousseaux J.C., Perez-Vich B., Velasco L., Berges H., Piquemal J., Munos S. A receptor-like kinase enhances sunflower resistance to Orobanche cumana. Nat Plants. 2019. 5:1211–5.
Sakhno T.V., Petrenkova V.P. Activity of oxidoreductases in broomrape-affected sunflower lines and hybrids. Zbirnyk Naukovykh Prats Umanskoho NUS. Issue 90. Part 1. Agricultural Sciences. Uman, 2017. P. 112–121. [in Ukrainian]
Chyhryn T.V., Zadorozhna O.A., Petrenkova V.P. Polyphenol oxidase activity in sunflower (H. annuus L.) genotypes with various resistance to the broomrape (Orobanche cumana Wallr.). Fiziologiya i Biokhimiya Kulturnykh Rasteniy. Vol. 44. No. 4. 2012. P. 355–360. [in Ukrainian]
Chyhryn T.V., Zadorozhna O.A. Peroxidase activity in broomrape-inoculated sunflower parental lines and hybrids. Visnyk Kharkivskoho Natsionalnoho Universytetu. Series Biolohiia. Issue 15 (No. 1008), 2012. P. 109-115. [in Ukrainian]
Chyhryn T.V., Zadorozhna O.A. Variations of catalase activity in sunflower accessions with various resistance to the broomrape (Orobanche sumana Wallr.). Visnyk Lvivskoho Universytetu. Series Biolohichna. Vol. 61. 2013. P. 189–194. [in Ukrainian]
Downloads
Published
Issue
Section
License
Copyright (c) 2023 D.V. Kurylych, K.M. Makliak
This work is licensed under a Creative Commons Attribution 4.0 International License.
When placing the text in electronic resources, the copyright is reserved by the author of a publication.
Authors may not agree with referee’s(s’) comments and remarks of the Editorial Board, rationalizing their point of view.
Authors may require clarification from or the Editorial Board or changes in the event of significant errors in their article.
Authors can use materials published in the journal Selection and Seed Industry in their work, mandatorily referring to our journal.