THE EFFECT OF USING INTERACTIVE METHODS IN TEACHING ENVIRONMENTAL SCIENCES
Keywords:
educational sphere, information communication system, pedogogical activityAbstract
the formation of the younger generation, which today is free and independent-minded, able to consciously actively participate in socio-political life, surrounding them- having the necessary knowledge and skills of the students in solving problems in the field of Environmental Protection, energy and resource conservation, energy and resource conservation in the construction of buildings and structures, general ecology, knowing the causes of environmental problems and ways to eliminate them, the information presented in this article about the possibility of using interactive methods in teaching ecology.
References
1. Kholliyev, A. E., Norboyeva, U. T., Kholov, Y. D., & Boltayeva, Z. A. (2020). Productivity of cotton varieties in soil salinity and water deficiency. The American Journal of Applied sciences, 2(10), 7-13.
2. Ergashovich, K. A., Azamatovna, B. Z., Toshtemirovna, N. U., & Rakhimovna, A. K. (2020). Ecophysiological effects of water deficiency on cotton varieties. Journal of critical Reviews, 7(9), 244-246.
3. Ergashovich, K. A., Toshtemirovna, N. U., Rakhimovna, A. K., & Abdullayevna, F. F. (2020). Effects of microelements on drought resistance of cotton plant. International Journal of Psychosocial Rehabilitation, 24(2), 643-648.
4. Toshtemirovna, N. U., & Ergashovich, K. A. (2019). Regulation of the water balance of the cotton varieties under salting conditions. ACADEMICIA: An International Multidisciplinary Research Journal, 9(8), 5-9.
5. Ergashovich, K. A., & Akmalovna, A. C. (2022). Soybean Cultivation Technology and Basics of Land Preparation for Planting. Eurasian Journal of Research, Development and Innovation, 7, 8-13.
6. Toshtemirovna, N. U., & Ergashovich, K. A. (2019). Physiology, productivity and cotton plant adaptation under the conditions of soil salinity. International Journal of Recent Technology and Engineering, 8(2 S3), 1611-1613.
7. Ergashovich, K. A., Davronovich, K. Y., Toshtemirovna, N. U., & Azamatovna, B. Z. (2020). Effect of soil types, salinity and moisture levels on cotton productivity. Journal of Critical Reviews, 7(9), 240-243.
8. Ergashovich, K. A., Toshtemirovna, N. U., Davronovich, K. Y., Azamatovna, B. Z., & Raximovna, A. K. (2021). Effects of Abiotic Factors on the Ecophysiology of Cotton Plant. International Journal of current research and review, 13(4), 4-7.
9. Салимов, Г. М. Холлиев, А. Э., Норбоева, У. Т., & Эргашева, О. А. (2015). Организация методов исследования через национальные подвижные игры. Молодой ученый, (11), 1484-1486.
10. Kholliyev, A., Nazarova, F., & Norboyeva, N. (2021). Cotton resistance indicators in the conditions of water deficiency. Збірник наукових праць SCIENTIA.
11. Kholliyev, A., Boltayeva, Z., & Norboyeva, U. (2020). Cotton water exchange in water deficiency. Збірник наукових праць ΛΌГOΣ, 54-56.
12. Ergashovich, K. A., Toshtemirovna, N. U., Raximovna, A. K., & Abdullaevna, F. F. (2022). The properties of cotton resistance and adaptability to drought stress. Journal of Pharmaceutical Negative Results, 13(4), 958-961.
13. Ergashovich, K. A., & Musurmonovich, F. S. (2021). Some Characteristics of Transpiration of Promising Soybean’s Varieties. The American Journal of Agriculture and Biomedical Engineering, 3(05), 28-35.
14. Kholliyev, A., & Boltayeva, Z. (2020). Resistance of cotton varieties to water deficiency. Збірник наукових праць ΛΌГOΣ, 70-72.
15. Kholliye, A., Norboyeva, U., & Adizova, K. (2020). About the negative impact of salination on cotton. Збірник наукових праць ΛΌГOΣ, 50-52.
16. Kholliyev, A., & Teshaeva, D. (2021). Soil salinity and water exchange of autumn wheat varieties. Збірник наукових праць ΛΌГOΣ.
17. Kholliyev, A., Norboyeva, U., & Adizova, K. (2020). Methods of using microelements to increase salt resistance of cotton. Збірник наукових праць ΛΌГOΣ, 57-60.
18. Холлиев, А. Махмудова, Ш. & Иргашева, Н. (2019). Меры борбы против зерновок на зернобобовых культурах. НАУКА, ПРОИЗВОДСТВО, БИЗНЕС, 192.
19. Norboyeva, U. T. (2017). Kholliyev АE Salinification influence on physiology of water exchange in cotton plant varieties (Gossypiym HirsutumL.). The Way of Science. International scientific jornal.–Volgograd ,(7), 41.
20. Ergashovich, K. A., Toshtemirovna, N. U., Iskandarovich, J. B., & Toshtemirovna, N. N. (2021). Soil Salinity and Sustainability of Cotton Plant. The American Journal of Agriculture and Biomedical Engineering, 3(04), 12-19.
21. Davronovich, K. Y., & Ergashovich, K. A. (2019). Growing of cotton varieties and hybrid to the height under the ecological conditions of soil salinity and washed soil salinity. Asian Journal of Multidimensional Research (AJMR), 8(9), 84-89.
22. Холлиев, А. Э. Норбоева, У. Т., & Ибрагимов, Х. М. (2016). Водообмен и солеустойчивость сортов хлопчатника в условиях почвенной засоления и засухи. Ученый XXI века, (5-4 (18)), 9-11.
23. Ergashovich, K. A., & Tokhirovna, J. O. (2021).
Ecophysiological properties of white oats. Conferencea, 50-52.
24. Holliev, A. E., & Safarov, K. S. (2015). Effect of different soil moisture on the physiology of water exchange and drought-resistant varieties (Gossypiym hirsutum L.) of cotton. Europaische Fachhochschule, (9), 7-9.
25. Norboeva, U., & Xamrokulova, N. (2022, March). Soybean-a natural source of protein. In E Conference Zone (pp. 79-81).
26. Норбоева, У. Т. (2019). Ecophysiological peculiarities of cotton varieties in soil salinity conditions. Scientific Bulletin of Namangan State University, 1(5), 103-108.
27. Murodovich, T. M., & Ergashovich, K. A. (2019). The role of environmental factors in the re-breeding of waterfowl in the steppe zone. Asian Journal of Multidimensional Research (AJMR), 8(10), 71-79.
28. Холлиев, А. Э. (2011). Физиологические особенности влияния засухи на водообмен и засухоустойчивость хлопчатника. Международные научные исследования, (1-2), 109-111.
29. Холлиев, А. Э. (1991). Особенности водообмена и продуктивность сортов хлопчатника в зависимости от водоснабжения (Doctoral dissertation, Ин-т физиол. и биофизики растений).
30. Kholliyev, A. E., & Teshaeva, D. R. (2022). Adaptation Characteristics of Autumn Wheat Variieties to Salinity Stresses. Ra journal of applied research, 8(3), 209-213.
31. Kholliyev, A., Norboyeva, U., & Jabborov, B. (2021). All about the water supply of cotton. Збірник наукових праць SCIENTIA.
32. Норбоева, У. Т. Хўжаев, Ж. Х. & Холлиев, А. Э. (2019). Тупроқ шўрланиши ва ғўза навларининг маҳсулдорлиги. Хоразм Маъмун Академияси ахборотномаси, 3, 61-65.
33. Холлиев, А. Э. Норбоева, У. Т., & Жабборов, Б. И. (2015). Влияние водного дефицита почвы на некоторые параметры водообмена и засухоустойчивость сортов хлопчатника в условиях Бухарской области. Молодой ученый, (10), 483-485.
34. Holliev, E. (2011). Drought and Cotton Varieties in Zaravshan Valley of Uzbekistan. International Journal of Applied, 6(3), 217-221.
35. Хужаев, Ж. Х., Мухаммадиев, А., Холлиев, А. Э., & Атаева, Ш. С. (2000). Гуза усимлигининг минерал элементларни узлаштиришига электротехнологиянинг таъсири. Анатилик кимё ва экология муаммолари. Анатилик кимё ва экология муаммолари. Самарканд.
36. Норбоева, У. Т., & Холлиев, А. Э. (2019). Ғўза ва бошқа экинларга шўрланиш таъсирининг экофизиологик асослари. Бухоро:“Бухоро” нашриёти, 132.
37. Холлиев, А. Э. (2011). Physiological features of influence of a drought on waterrelation and droughtstability of cotton. International scientific researches, 3(1).
38. Toshtemirovna, N. U., & Ergashovich, K. A. (2022). The geoecological zoning of the kyzylkum desert. International Journal of Advance Scientific Research, 2(03), 28-36.
39. Kholliyev, A., & Adizova, K. (2021). Physiological properties of copper in plant metabolism. Збірник наукових праць SCIENTIA.
40. Norboyeva, U. T., & Kholliyev, A. E. (2019). Ecophysiological basis of the effect of salinity on cotton and other crops. Bukhara:“Bukhara” publishing house.
41. Kholliyev, A. E., & Norboyeva, U. T. (2019). Ecophysiological basis of drought effects on cotton and other crops. Bukhara:“Bukhara” publishing house, 152.
42. Adizova, X. R., Kholliev, A. E., & Norboeva, U. T. (2022, March). Physiological basis of the use of microelements in agricultural crops. In E Conference Zone (pp. 84-89).
43. Холлиев, А., & Дусманов, С. (2014). Основные вредители зернобобовых культур (гороха, фасоли, маша, сои). Вестник Агронауки, 4, 32.
44. Холлиев, А., & Дусманов, С. (2014). Дуккакли дон (нўхат, ловия, мош) экинларининг асосий зараркунандалари. Агро илм” журнали.-Тошкент, 4, 32.
45. Kholliyev, A. E., & Norboуeva, U. T. (2013). Drought tolerance and productivity of cotton plant in Bukhara conditions of Uzbekistan. In Applied Sciences Europe: tendencies of contemporary development. 2nd International Scientific conference, 22th June Stuttgart: Germany (pp. 3-4).
46. Kholliyev, A., Qodirov, E., & Ramazonov, O. (2021). Salt resistance, water exchange and productivity of cotton. Збірник наукових праць SCIENTIA.
47. Kholliyev, A. E., & Norboyeva, U. T. (2013). The influence of electro-technologies on cotton plant water balance and productivity. European Applied Sciences. Stuttgart: Germany, 5, 19-21.
48. Ergashovich, K. A., & Yandashova, M. (2024). EFFECTS OF SALT STRESS ON ECOPHYSIOLOGICAL TRAITS OF WHEAT. Web of Agriculture: Journal of Agriculture and Biological Sciences, 2(4), 1-5.
49. Ergashovich, K. A., & Raximovna, T. D. (2022). Adaptation Characteristics of Autumn Wheat Varieties to Salinity Stresses.
50. Ergashovich, K. A., & Raximovna, T. D. (2022). Adaptation Characteristics of Autumn Wheat Varieties to Salinity Stresses.
51. Kholliyev, A., & Isayeva, М. (2021). Flora of Bukhara desert ecosystem and its protection. Збірник наукових праць SCIENTIA.
52. Kholliyev, A., & Isayeva, М. (2021). Flora of Bukhara desert ecosystem and its protection. Збірник наукових праць SCIENTIA.
53. Фозилов, Ш. М. & Холлиев, А. Э. (2022). Соя баргларида фотосинтез ва транспирация жадаллигининг ўзига хос хусусиятлари. Хоразм Маъмун академияси ахборотномаси: илмий журнал, 7(1), 91.
54. Kholliyev, A., Ramazonov, O., & Qodirov, E. (2021). Dry resistance of medium fiber varieties of cotton plant. Збірник наукових праць ΛΌГOΣ.
55. Холлиев, А. & Дусманов, С. (2014). Эффективность семенных пестицидов против бобовых вредителей. Вестник агронауки, (1), 29.
56. Холлиев, А. Э. (2009). Қурғоқчилик ва ғўзанинг ҳимоявий мослашиш хусусиятлари. Ўзб. биол. Жур, 3, 14-17.
57. AE, N. Kholliyev, & FI, Nazarova (2021). Cotton resistance Indicators in the Conditions of Water deficiency. The riving force of science and trends in its development, 3, 7-9.
58. Ergashovich, K. A., Toshtemirovna, N. U., Azamatovna, B. Z., & Rakhimovna, A. K. (2020). Theoretical and practical fundamentals of adaptation characteristics of cotton varieties to physiological soil salinity.
59. Холлиев, А. Э. Норбоева, У. Т. & Ибрагимов, Х. М. (2016). Водообмен и солеустойчивость сортов хлопчатника в условиях почвенной засоления и засухи. Ученый XXI века, (5-4 (18)), 9-11.
60. Холлиев, А. Э. Норбоева, У. Т., & Ибрагимов, Х. М. (2016). Водообмен и солеустойчивость сортов хлопчатника в условиях почвенной засоления и засухи. Ученый XXI века, (5-4 (18)), 9-11.
61. Холлиев, А. Э. (2005). ва бошіалар. ўґза навларининг тезпишарлигига іурІоічиликнинг таъсири.
62. Холлиев, А. (2023). ЎСИМЛИКЛАРНИНГ АБИОТИК ОМИЛЛАРГА ЧИДАМЛИГИНИ БАҲОЛОВЧИ БИОЛОГИК ВА ЭКОЛОГИК БЕЛГИЛАР. ЦЕНТР НАУЧНЫХ ПУБЛИКАЦИЙ (buxdu. uz), 44(44).
63. Kenzhaev, A., Kh, K. K., & Kholliev, A. E. (2023). RESTORATION OF SALINITY IRRIGATED LAND USING GLYCYRRHIZA GLABRA L.
64. Xolliyev, A. E., & Elmurodovna, M. M. (2023). INDUSTRY, AGRICULTURE, AND DOMESTIC WATERS OF KOROVULBOZOR DISTRICT. International journal of advanced research in education, technology and management, 2(4).
65. Berdievich, D. A., Ergashovich, K. A., Jaylovovich, K. S., & Jumanazarovich, B. K. (2023). THE AGROTECHNICS OF THIN-FIBER COTTON VARIETIES UNDER CONDITIONS OF STRESS FACTORS. Conferencea, 77-82.