Мақаланы E-mail арқылы жіберу Effect of Amorphous Silicon Dioxide on Productivity and Quality of Tomato
- Авторлар: Bocharnikova Е.А.1, Кasatskii А.А.2, Мatichenkov В.1
-
Мекемелер:
- Institute of Basic Biological Problems, RAS
- LLC “Ecoproject”
- Шығарылым: № 10 (2023)
- Беттер: 61-65
- Бөлім: Agroecology
- URL: https://journals.rcsi.science/0002-1881/article/view/147853
- DOI: https://doi.org/10.31857/S0002188123100058
- EDN: https://elibrary.ru/EOZLCG
- ID: 147853
Дәйексөз келтіру
Ашық рұқсат
Рұқсат берілді
Тек жазылушылар үшін
Аннотация
Tomatoes are one of the most popular vegetables, improving their taste and biochemical quality is possible as a result of reducing the content of nitrates and increasing the sugar content. The effect of amorphous fine silica on the productivity and quality of tomatoes was studied in vegetation experiments. Silica was introduced into a mixture of gray forest soil and washed sand in doses of 0.1, 0.2 and 0.3 g/vessel, which corresponded to 100, 200 and 300 kg/ha, against the background of complex mineral fertilizers. It was shown that the improvement of silicon nutrition of tomatoes significantly increased their yield by 52–70%. There was also an improvement in fruit quality as a result of a 20–40% reduction in nitrate content and an increase in sugar content by 12.9–50.9%. Statistical analysis of the obtained data revealed that the concentration of monosilicon acid in soils treated with silicon dioxide was closely positively correlated with the yield of tomatoes, as well as the sugar content in fruits and negatively correlated with the content of nitrates.
Негізгі сөздер
Авторлар туралы
Е. Bocharnikova
Institute of Basic Biological Problems, RAS
Хат алмасуға жауапты Автор.
Email: mswk@rambler.ru
Russia, 142290, Moscow region, Pushchino, Institutskaya ul. 2
А. Кasatskii
LLC “Ecoproject”
Email: mswk@rambler.ru
Russia, 115551, Moscow, Shipilovsky prosp. 39 bldg. 1, room/ 1, office 6
В.В. Мatichenkov
Institute of Basic Biological Problems, RAS
Email: mswk@rambler.ru
Russia, 142290, Moscow region, Pushchino, Institutskaya ul. 2
Әдебиет тізімі
- Villareal R.L. Tomatoes in the tropics. CRC Press, 2019 p.
- Ye L., Zhao X., Bao E., Li J., Zou Z., Cao K. Bio-organic fertilizer with reduced rates of chemical fertilization improves soil fertility and enhances tomato yield and quality // Sci. Rep. 2020. V. 10. № 1. P. 1–11.
- Bertin N., Génard M. Tomato quality as influenced by preharvest factors // Sc. Horticult. 2018. V. 233. P. 264–276.
- Coyago-Cruz E., Corell M., Moriana A., Mapelli–Brahm P., Hernanz D., Stinco C.M., Meléndez-Martínez A.J. Study of commercial quality parameters, sugars, phenolics, carotenoids and plastids in different tomato varieties // Food Chem. 2019. V. 277. P. 480–489.
- Sayed E.G., Mahmoud A.W.M., El-Mogy M.M., Ali M.A., Fahmy M.A., Tawfic G.A. The effective role of nano-silicon application in improving the productivity and quality of grafted tomato grown under salinity stress // Horticulturae. 2022. V. 8. № 4. P. 293.
- Khomyakov D.M., Wei Xiao, Xiong Ying, Bocharnikova E.A., Matichenkov V.V. Nature-like agricultural chemicals in food safety and soil fertility // Mosc. Univ. Soil Sci. Bul. 2020. V. 75. № 2. P. 87–93.
- Matichenkov V., Bocharnikova E. Si in horticultural industry // Plant mineral nutrition and pesticide management. Amsterdam: Elsevier, 2004. V. 2. P. 217–228.
- Матыченков В.В. Градация почв по дефициту доступного растениям кремния // Агрохимия. 2007. № 7. С. 22–27.
- Рябинина О.В., Матвеева Н.В. Химические, физические и биологические методы исследования почв. Иркутск: ИрГАУ им. А.А. Ежевского, 2017. 129 с.
- Prakash N.B., Savant N.K., Sonar K.R. Silicon in Indian agriculture. New Delhi: West Publishing House, 2018. 198 p.
- Wallace A. Relationships among nitrogen, silicon, and heavy metal uptake // Soil Sci. 1989. V. 147. № 6. P. 457–460.
- Mehrabanjoubani P., Abdolzadeh A., Sadeghipour H.R., Aghdasi M. Silicon affects transcellular and apoplastic uptake of some nutrients in plants // Pedosphere. 2015. V. 25. № 2. P. 192–201.
- Wei W., Ji X., Saihua L., Bocharnikova E., Matichenkov V. Effect of monosilicic and polysilicic acids on Cd transport in rice, a laboratory test // J. Plant Growth Regul. 2022. V. 41. P. 818–829.
- Anderson D.L., Jones D.B., Snyder G.H. Response of a rice-sugarcane rotation to calcium silicate slag on Everglades Histosols // Agron. J. 1987. V. 79. № 3. P. 531–535.
- Artyszak A. Effect of silicon fertilization on crop yield quantity and quality – A literature review in Europe // Plants. 2018. V. 7. № 3. P. 54.
- Soppelsa S., Kelderer M., Testolin R., Zanotelli D., Andreotti C. Effect of biostimulants on apple quality at harvest and after storage // Agronomy. 2020. V. 10. № 8. P. 1214.
- Elkhatib H., Gabr S.M., Roshdy A.H., Al-Haleem A., Mostafa M. The impacts of silicon and salicylic acid amendments on yield and fruit quality of salinity stressed tomato plants // Alexandria Science. Exchange J. 2017. V. 38. P. 933–939.
- Матыченков И.В., Пахненко Е.П. Изменение содержания подвижных фосфатов почвы при внесении активных форм кремния // Вестн. Ульяновск. ГСХА. 2013. № 3. С. 24–28.
- Matichenkov V., Bocharnikova E., Campbell J. Reduction in nutrient leaching from sandy soils by Si-rich materials: Laboratory, greenhouse and filed studies // Soil Till. Res. 2020. V. 196. 104450.
Қосымша файлдар
