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| Ultima descărcare din IBN: 2023-03-23 06:46 |
| Căutarea după subiecte similare conform CZU |
| 633.34:631.524.824 (1) |
| Прочие кормовые растения (120) |
| Агротехника (1225) |
 SM ISO690:2012БУДАК, Александр, HARCIUC, Oleg, СКУРТУ, Георгий. Тестирование перспективного материала в селекционном процессе у сои. In: Agronomie şi agroecologie, 1 ianuarie 2018, Chişinău. Chişinău: Centrul editorial UASM, 2018, Vol.52(1), pp. 324-328. ISBN 978-. |
| EXPORT metadate: Google Scholar Crossref CERIF DataCite Dublin Core |
| Agronomie şi agroecologie Vol.52(1), 2018 |
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Simpozionul "„85 ani ai Facultăţii de Agronomie – realizări şi perspective”, dedicat aniversării a 85 de ani de la fondarea Universităţii Agrare de Stat din Moldova" Chişinău, Moldova, 1 ianuarie 2018 | ||||||
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| CZU: 633.34:631.524.824 | ||||||
| Pag. 324-328 | ||||||
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One of the most important signs for selection includes drought tolerance and heat tolerance. It should be noted that the intensity of photosynthesis should be taken into account in conjunction with all other plant characteristics when creating new varieties. A negative (r= -0.46) correlation between photosynthesis intensity and transpiration rate, as well as between plant productivity and transpiration rate (r = +0.15) was determined. Genotypes with the lowest transpiration rate and a large difference in leaf surface and air temperature during flowering are characterized by the highest productivity. |
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| Cuvinte-cheie Soybean, intensity of photosynthesis, transpiration coefficient, plant productivity, transpiration ratio, correlation coefficient |
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