Цитирания Лиляна Начева

Справка

за цитиранията на доц.д-р Лиляна Начева

  1. Цитирания общо – 56 броя (без автоцитати)

  1. Цитирания в международни издания – 48 броя

В това число:

2.1. В списания с импакт фактор – 11 броя
2.2. В книги – 5 броя
2.3. в международни и чуждестранни издания – 29 броя
2.4. в дисертационни трудове – 3 броя
Цитирания в български издания – 8 броя
В това число:
3.1. в реферирани списания и сборници от национални форуми – 5 броя
3.2. в дисертационни трудове – 3 броя
Цитирани трудове14 броя

Списък на цитиранията

на доц. д-р Лиляна Начева

 А). Цитирания в международни издания:

Научен труд:

I. Nacheva, L., Ivanova, K. and Milusheva, S. 2002. Elimination of PPV in plum cvs Kyustendilska sinya and Valjevka through in vitro Techniques Acta Horticulturae 577: 289-291.

е цитиран в:

1. Ružić, D., Cerović, R. and Vujović, T. 2007. Primena savremenih in vitro metoda kod vrste roda Prunus L . Voćarstvo vol. 41, br. 157-158, str. 63-70.

 2. Dzhuvinov, V., Bozhkova, V., Milusheva, S. and Gercheva, P.S. 2007. Investigation of sharka in Bulgaria for the past seventy years. Acta Hort. (ISHS) 734:109-115.

 

3. Chandel, V., Rana, T., Hallan, V., Zaidi, A. 2010. Virus (ES) infecting stone fruits: Detection methods and biotechnological approaches towards management strategies. Recent Trends in Biotechnology and Microbiology (Book Chapter) Publisher: Nova Science Publishers, Inc.pp. 65-79

 

Научен труд:

II. Gercheva P., Zhivondov, A., Nacheva, L., Avanzato, D. 2008. Transexual Forms of Pistachio (Pistacia terebinthus L.) from Bulgaria – biotechnological approaches for preservation, multiplication and inclusion in selection programs. Bulgarian Journal of Agricultural Science 14 (5): 449-453.

е цитиран в:

  1. Hormaza, J I. and Wunsch, A. 2011. Pistacia In: Kole, C. (ed). Wild Crop Relatives: Genomic and Breeding Resources , Temperate Fruits, Chapter 6, 119-128, Springer-Verlag, Berlin, Heidelberg, DOI: 10.1007/978-3-642-16057-8_6;
  1. Gocer, Hulya 2013. ANTIOXIDANT PROPERTIES OF TEREBINTH (PISTACIA TEREBIN THUS L.) SEEDS. International Journal of Academic Research . Sep2013, Vol. 5 Issue 5, p120-124. 5p.;
  2. Alhajjar, N.M., Bayan Mohammed Muzher,B.M. and Hamed , F. 2016. Assessing Genetic Relationships between Pistacia vera L. Hybrids and their Parents (P. vera × Monoecious Genotypes of P. atlantica) Using SSR Markers. Jordan Journal of Agricultural Sciences, 12(1): 148-157.;
  3. Alhajjar, N.M., Muzher, B.M. 2016. Genetic similarity among female, male, and bisexual genotypes of Pistacia atlantica Desf. Using SSR technique. Scientific Journal of King Faisal University, 17 (2): 11-22. (SJR2015 0.102);

8. Bai, Q., Su, S., Lin, Z., Leng, P. and Wang, W. 2016. The Variation Characteristics and Blooming Phenophase of MonoeciousPistacia chinensis Bunge. HortScience vol. 51 (8): 961-967.

9. Ünüvar, A. 2013. Effects of menengic (Pistacia terebinthus L.) and some bread additives on dough rheological properties and bread quality. Department of Food Science, Hacettepe Üniversitesi, PhD Thesis.

 

Научен труд:

III. Rankova, Z., Nacheva, L. and Gercheva, P. 2009. Growth habits of the vegetative apple rootstock MM106 after treatment with some soil herbicides under in vitro conditions. Acta Hort. (ISHS) 825:49-54.

е цитиран в:

10. Kviklys, D. 2009. Tolerance of apple propagation material to herbicides. Scientific works of the Lithuanian Institute of horticulture and Lithuanian University of agriculture. Sodininkyste ir daržininkyste 28(3): 109-115.

 

 Научен труд:

IV. Gercheva, P., Nacheva, L. and Dineva, V. 2009. The rate of shoot regeneration from apple (Malus domestca Borkh.) leaves depending on dhe in vitro culture conditions of the source plants. Acta Hort. (ISHS) 825:71-76.

е цитиран в:

11. Bhatti, S and Jha, G. 2010. Current trends and future prospects of biotechnological interventions through tissue culture in apple. Plant Cell Reports, Volume 29, Number 11, 1215-1225, (IF 2.274, 2011)

14.  Fanor Casierra-Posada. 2012. Manzano y Peral (Malus domestica Borkh. y Pyrus communis L.). In book: Manual para el cultivo de frutales en el trópico, Edition: 1. edition, Chapter: Manzano y Peral (Malus domestica Borkh. y Pyrus communis L.), 1023 p., Publisher: Produmedios, Editors: Gerhard Fischer (ISBN 978-958-99892-5-8), pp.657-681.

15. Bacha, N., Darkazanli, K. and Abdul-Kader, A. 2009. Direct organogenesis and plantlet multiplication from leaf explants of in vitro-grown shoots of apple (Malus domestica Borkh.) cv.’Golden delicious’ and ‘MM111’ rootstock. Fruit, Vegetable and Cereal Science and Biotechnology. 3(1): 28-34. Global Science Books.

16. Nishitani, C., Hirai, N., Komori, S., Wada, M., Okada, K., Osakabe, K., Yamamoto, T., Osakabe, Y. 2016. Efficient Genome Editing in Apple Using a CRISPR/Cas9 system. Scientific Reports, 6: 6:31481 (IF 5.228, 2015)

 

 

Научен труд:

V. Nacheva, L. and Gercheva, P. 2009. Micropropagation of Gisela 5 (cherry dwarf rootstock): the effect of the type and the concentration of the carbohydrates in the nutrient medium. Acta Hort. 825: 261-68.

е цитиран в:

17. Mir, J., Ahmed, N., Verma M.K., Ahmad, M., Lal, S. 2010. In-vitro multiplication of cherry rootstocks. Indian Journal of Horticulture, 67: 29-33.

 

18. Guclu, F., Koyuncu, F. and San, B. 2010. The in vitro micropropagation of some clonal cherry rootstocks. Journal of Natural and Applied Sciences, 14(2): 144-147.

 

19. ŠIŠKO Metka. 2011. In vitro propagation of Gisela 5 (Prunus cerasus × P. canescens). AGRICULTURA (A)- Issue 13 pp. 31-34.

 

20. Plopa, C. and Budan, S. 2011. Study concerning in vitro propagation of cherry clonal rootstock GISELA 5. In: “LUCRĂRI ŞTIINŢIFICE Vol. 54 (1), SERIA HORTICULTURĂ EDITURA “ION IONESCU DE LA BRAD” (ISSN 2069-8275), pp. 219-224.

 

21. Bošnjak, A., Kereša, S., Jerčić, I. and Barić, M. 2012. The effect of cytokinin type and explant orientation on axillary shoot proliferation and in vitro rooting of Gisela 5 cherry rootstock. Journal of Food, Agriculture & Environment Vol.10 (3&4 ): 616-620. (IF 0.517, 2011)

22. Sansavini, S. and Lugli, S. 2014. NEW ROOTSTOCKS FOR INTENSIVE SWEET CHERRY PLANTATIONS. Acta Hort. (ISHS) 1020:411-434

23. Zarei M., Garoosi Gh., Nezami E., Hosseini R., Ahmadi J. 2013.  The Effect of Medium, Carbon Source, Light Spectrum and Style Treatment of Auxin on Shoot and Root Regeneration of Gisela 6 Root Stock. Journal of Cell & Tissue (JCT), 4(2): 169-185.

 

24. Shabani, Z., Moghadam, E. G., Abedi, B. and Tehranifar, A. 2015. Effect of media culture and plant growth regulators on proliferation and rooting of vegetative Myrobalan 29C rootstock.

 

25. Sun , Q. R. , Sun , H. Y., Bell , R. L., Xin , L. G. Li , Tao, J. H.,  Li. Q. 2014.  Optimisation of the media for in vitro shoot proliferation and root induction in three new cold-hardy and dwarfing or semi-dwarfing clonal apple rootstocks. The Journal of Horticultural Science and Biotechnology , Vol. 89, Iss. 4, 381-388.  (IF 2014,  0.541)

 

26. SARROPOULOU, V., DIMASSI-THERIOU, K., THERIOS, I. 2015. Effect of sodium nitroprusside on micropropagation and biochemical parameters of CAB-6P and Gisela 6 cherry rootstocks. Turkish Journal of Biology (Turk J Biol), 39: 595-610. (IF 2014, 1.343)

 

27. FALLAHPOUR, M., MIRI, S., BOUZARI, N. 2015. In Vitro Propagation Of ‘Gisela 5’ Rootstock As Affected By Mineral Composition Of Media And Plant Growth RegulatorsJournal of Horticultural Research 2015, vol. 23(1): 57-64  

Научен труд:

VI. Nacheva, L., K. Ivanova. 2006. Influence of the gas-permeable closure of the vessels on the growth of in vitro cultured fruit plants. Agricultural Science 4: 26-32.

е цитиран в:

28. Bhatti, S and Jha, G. 2010. Current trends and future prospects of biotechnological interventions through tissue culture in apple. Plant Cell Reports, Volume 29 (11):1215-1225. (IF 2.274, 2011)

 

Научен труд:

VII. Nacheva, L., Gercheva, P., Dzhuvinov, V. 2009. Efficient shoot regeneration system from pear rootstock OHF – 333 (Pyrus comunis L.) leaves. Acta Hort. (ISHS) 839: 195-201.

е цитиран в:

29. Bell, R., R. Scorza and D. Lomberk. 2011. Adventitious shoot regeneration of pear (Pyrus spp.) genotypes Plant Cell, Tissue and Organ Culture, 108 (2):229-236. (IF 3.09, 2011)

30. Elkins, R., Bell,R. and Einhorn, T. 2012. 2012 Needs Assessment for Future US Pear Rootstock Research Directions Based on the Current State of Pear Production and Rootstock. Research Journal of the American Pomological Society 66(3): 153-163. (IF 0.429, 2012)

31. Vujović, T., Ružić, D. and  Cerović, R. 2014.  Adventitious organogenesis via intermediate callus formation in representatives of Prunus, Pyrus and Rubus genera. Romanian Biotechnological Letters Vol.19 (3): 9297-9309. (IF 0.351, 2014)

32. Erturk, U. 2013. The in vitro rooting performance of pear rootstock 'OHxF 333' in different rooting procedures. Journal of Food, Agriculture and Environment. Volume 11, Issue 3-4, 2013, Pages 1424-1427;

33. Li Wenjian; Cao Hou; Zong Chengwen; Jin Can; Liu Miao. 2012. Establishment of Regeneration System of In Vitro Leaves of Apple Pear, Journal of Fruit Science (5):800-803. (in Chinese);

34. Yan, Y., Jiang, H., Chao, G., Wu, J. 2017. Research on the establishement of rapid propagation and leaf regeneration system of pear ‘Xuehuali’. Journal of Nanjing Agricultural University, 40(1): 68-75. (In Chinese with English abstract).

 

Научен труд:

VIII. Nacheva L., Ivanova K., Manolov P., Zlatev Z., 2002. Possibilities for application of photoautotrophy in micropropagation of Dzhanka 4 (Prunus cerasifera Ehrt.) rootstock. Acta Horticulturae, 577: 199–205.

е цитиран в:

35. Vujović, T., Ružić, D., Cerović, R. 2012. In vitro shoot multiplication as influenced by repeated subculturing of shoots of contemporary fruit rootstocks. Hort. Sci. (Prague), 39: 101–107. (IF 0.786, 2012).

 

Научен труд:

IX.Gercheva P., Zhivondov, A., Nacheva L. and Avanzato, D. 2012. Improvement of germination efficiency of interspecific hybrids Pistacia terebinthus L. X Pistacia vera L. Acta Hort. (ISHS) 940:283-286.

е цитиран в:

37. Ashmore, S. E., Martyn, A., Sommerville, K., Errington, G., & Offord, C. A. 2015. Seed Biology. Crop Wild Relatives and Climate Change, 187.

 

Научен труд:

X. Ibrahim O, Gercheva P, Nacheva L, Ivanona V (2011) Silver nitrate as a sterilization effective agent for in vitro surface-sterilization protocol of Taxus baccata L. shoot explants. Journal of Mountain Agriculture of the Balkans, 14 (4):894-906.

е цитиран в:

38. Rivera, C., Navarrete, E., Cuba-Díaz, M. 2016. Protocols to introduction of Colobanthus quitensis at in vitro culture. Conference: XXI Reunión de Biología Vegetal, DOI: 10.13140/ RG.2.2.34351.94881

Научен труд:

XI. Dimitrova, N., Nacheva, L. and Berova, M. 2016. Effect of meta-topolin on the shoot multiplication of pear rootstock OHF-333 (Pyrus communis L.). Acta Scientiarum Polonorum - Hortorum cultus 15 (2): 43-53.

е цитиран в:

39. Vijayakumar, J., Ponmanickam, P., Samuel, P., Sudarmani, D., Pandiarajan, J. 2017. Influence of Meta-Topolin on Efficient Plant Regeneration via Micropropagation and Organogenesis of Safflower ( Carthamus tinctorius L.) cv. NARI-H-15. American Journal of Plant Sciences 08(04):688-705 (h5-index 19).

Научен труд:

XII. Nacheva, L., Rankova, Z., Gercheva, P. 2012. Effect of some soil herbicides of the vegetative habits and pigment content of Prunus domestica Wangeheims’  in in vitro condition. Bulg J Agric Sci 4:583–588

е цитиран в:

40. Osman, M. H., Abo-Shady, A. M. and El-Nagar, M. M. 2016. Cyanobacterial Arthrospira (Spirulina platensis) as safener against harmful effects of fusilade herbicide on faba bean plant. Rendiconti Lincei, 27 (1): 1-8 (IF 0.75)

41. Telesinski, A., Onyszko, M., Wrobel, J., Marska, B. 2016. Changes of antioxidant properties in juice from marigold (Calendula officinalis L.) due to napropamid. Chemistry, Environment,  Biotechnology, 19, 29‒33 (http://dx.doi.org/10.16926/cebj.2016.19.04).

 

42. Милевская, И. А. 2015. Экологическая безопасность в АПК. Реферативный журнал 4: 907-907.

 

Научен труд:

XIII. Dzhuvinov, V., Penev, R., Slavov, I., Kutinkova, K.,  Gercheva, P., Nacheva, L. 2014. The Major Results from the Evaluation of Genetic Resourses and Breeding of Apple in the Fruit Growing Institute–Plovdiv, Plant Science (Bulgaria)

е цитиран в:

43. Dimitrova, S. (2016). Agrobiological characteristics of apple (Malus domestica) cultivars. Acta Hortic. 1139, 197-202 (DOI: 10.17660/ActaHortic.2016.1139.34; https://doi.org/10.17660/ActaHortic.2016.1139.34  

Научен труд:

XIV. Nacheva, L.R., Gercheva, P.S., Andonova, M.Y., Panayotova , D.V. and Dzhuvinov, V.T. 2014. Somaclonal variation - usefull tool to improve desease resistance of pear (Pyrus communis L.) rootstock Old Home x Farmingdale (OHF 333). Acta Hort. (ISHS) 1056:253-258.

е цитиран в:

44. Krishna, H., Alizadeh, M., Singh, D., Singh, U., Chauhan, N., Eftekhari, M. and Sadh, R.  2016. Somaclonal variations and their applications in horticultural crops improvement, 3 Biotech (Springer, DOI 10.1007/s13205-016-0389-7) 6:54;

 

Научен труд:

16. Nacheva, L., K. Ivanova and S. Milusheva . 2002. Elimination of PPV in plum cvs Kyustendilska sinya and Valjevka through in vitro Techniques Acta Horticulturae 577: 289-291

е цитиран в:

40. Sokolov R.S., Iakimova E.T., Atanassova B.Y. 2015. EFFECT OF BASAL SALT MIXTURES ON GROWTH PERFORMANCE OF IN VITRO CULTURED PRUNUS CERASIFERA ‘NIGRA’, International theoretical and practical internet conferenceProblems of water regime, mineral nutrition and adaptability of plants. Sochi, Russia, 16-19 June, 2015. (http://www.vniisubtrop.ru/internet-conference.html)

 

Б) Цитирания в дисертации в чужбина

Научен труд:

VIII. Nacheva L., Ivanova K., Manolov P., Zlatev Z., 2002. Possibilities for application of photoautotrophy in micropropagation of Dzhanka 4 (Prunus cerasifera Ehrt.) rootstock. Acta Horticulturae, 577: 199–205.

е цитиран в:

45. Martínez-Hernández, María de Jesús. 2007. Use of inert substrates for tissue culture of citrus rootstocks tolerant to citric fruit sadness virus. PhD Thesis. Institucion de ensenanza e investigacion en ciencias agricolas, Mexico, page 28.

 

IV. Gercheva, P., Nacheva, L. and Dineva, V. 2009. The rate of shoot regeneration from apple (Malus domestca Borkh.) leaves depending on dhe in vitro culture conditions of the source plants. Acta Hort. (ISHS) 825:71-76.

е цитиран в:

12. Tabori, Katalin. 2011. The role of cytokinins in in vitro shoot regeneration in apple. Szent Istvan University. PhD Thesis.

13. Pathak, H. 2010. Biotechnological interventions for the production of superior, disease free planting material of apple (Malus X domestica Borkh.) rootstocks. Ph.D. Thesis, TERI University, New Delhi, India, page 54.

 Б) Цитирания в наши реферирани научни списания и дисертации

 Научен труд:

VIII. Nacheva, L., Ivanova, K., Manolov, P. and Zlatev, Z. 2002. Possibilities for Application of Photoautotrophy in Micropropagation of Dzhanka 4 (Prunus cerasifera EHRT.) Rootstock, Acta Horticulturae (ISHS) 577: 199-205.

е цитирана в:

36. Kamenova, I. and S Milusheva. 2005. Sharka disease in Bulgaria: Past, present and future. Biotechnology and Biotechnological Equipment 19(3): 22-40.

46. Каймаканова, M. 2011. Проучване на физиологичната реакция на фасул (Phaseolus vulgaris L.) към засоляване с NaCl и Na2SO4. Автореферат Дисертация за присъждане на образователна и научна степен “Доктор”. Аграрен Университет - Пловдив

 

Научен труд:

IX. Nacheva, L. and Ivanova, K. 1998. Effects of the gas exchange rate in the culture vessels on the photosynthesis and the carbon metabolism of micropropagated fruit plantlets (apple rootstock MM 106). Biotechnol. &Biotechnol. Eq. 12 (1): 39-44.

е цитиран в:

47. Василев, А., Златев, З., Берова, М., Стоева, Н. 2010. Толерантност на растенията към засушаване и високи температури – физиологични механизми и подходи за подбор на толерантни генотипове. Аграрни науки. 4: 59-63.

 

Научен труд:

X. Начева, Л. 2000. Възможности за приложение на фотоавтотрофия при in vitro култивираната ябълкова подложка MM106. Дисертация

е цитиран в:

48. Иванова, К. 2003. Биотехнологични изследвания върху микроразмножаването на овощни видове в Института по овощарство, Пловдив. Растениевъдни науки 5:391-393.

Научен труд:

XI. Nacheva, L. and Gercheva, P. 2006. The effect of auxin type and concentration on in vitro rooting of Gisela 5 (Cherry Dwarf Rootstock) Journal of mountain agriculture on the Balkans 9 (7): 1309-1316.

е цитиран в:

49. Корнова, К. и Попов, С. 2015. Оптимизиране процеса на вкореняване при in vitro размножаване на черешовата подложка Gisela 6 (P. cerasus × P. canescens sp.). Растениевъдни науки vol. LII No. 2: 29-33.

 

Научен труд:

XII. Nacheva, L. and Gercheva, P. 2008. Micropropagation of the sweet cherry clonal rootstock Gisela 6 (Prunus cerasus x Prunus canescens). Journal of Mountain Agriculture on the Balkans 11 (7): 1569-1581.

е цитиран в:

50. Корнова, К. и Попов, С. 2015. Оптимизиране процеса на вкореняване при in vitro размножаване на черешовата подложка Gisela 6 (P. cerasus × P. canescens sp.). Растениевъдни науки vol. LII No. 2: 29-33.

 

Научен труд:

XIII. Rankova, Z., Nacheva, L., Zapryanova, K., Gercheva, P. & Bozkova, V. 2006. Effect of soil herbicides napropamid and pendimethalin on rooting and growth of the vegetative plum rootstock Pr. domestica Wangenheims under in vitro conditions. Journal of mountain agriculture on the Balkans, 9(3), pp. 349-359.

 

е цитиран в:

51. Герасимова, Н. 2012. Влияние на почвени хербициди върху растежните и продуктивни възможности в ябълково насаждение, Дисертация, ЛТУ-София.

Научен труд:

XIV. Rankova Z., L. Nacheva, P. Gercheva, Z. Zlatev (2012). Stress reactions of the cherry rootstock Gisela 5 (CHERRY DWARF ROOTSTOCK) after treatment with soil herbicides: I. Effect on the growth and photosynthetic pigments. сп.Аграрни науки,8, 69-73

 

е цитиран в:

52. Герасимова, Н. 2012. Влияние на почвени хербициди върху растежните и продуктивни възможности в ябълково насаждение. Дисертация, ЛТУ-София