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Общее количество найденных документов : 32
Показаны документы с 1 по 20
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1.
| Aguirrezabal L.A.N. Root elongation rate is accounted for by intercepted PPFD and source-sink relations in field and laboratory-grown sunflower // Plant, Cell and Environment, 1994. Vol. 17, N 4.-С.443-450
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2.
| Aguirrezabal L.A.N. Root elongation rate is accounted for by intercepted PPFD and source-sink relations in field and laboratory-grown sunflower // Plant, Cell and Environment, 1994. Vol. 17, N 4.-С.443-450
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3.
| Begue A. Operational relationships between NOAA-advanced very high resolution radiometer vegetation indices and daily fraction of absorbed photosynthetically active radiation, established for Sahelian vegetation canopies // J. Geophys. Res. D, 1996. Vol. 101, N 16.-С.21, 275-21, 289
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4.
| Begue A. Operational relationships between NOAA-advanced very high resolution radiometer vegetation indices and daily fraction of absorbed photosynthetically active radiation, established for Sahelian vegetation canopies // J. Geophys. Res. D, 1996. Vol. 101, N 16.-С.21, 275-21, 289
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5.
| Begue A. Operational relationships between NOAA-advanced very high resolution radiometer vegetation indices and daily fraction of absorbed photosynthetically active radiation, established for Sahelian vegetation canopies // J. Geophys. Res. D, 1996. Vol. 101, N 16.-С.21, 275-21, 289
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6.
| Brown Martin J. A survey of ultraviolet-B radiation in forests // J. Ecol., 1994. Vol. 82, N 4.-С.843-854
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| Brown Martin J. A survey of ultraviolet-B radiation in forests // J. Ecol., 1994. Vol. 82, N 4.-С.843-854
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8.
| Czereednik Absorption of photosynthetically active radiation (PAR) in canopy and yield formation by leafy and semi-leafless morphotypes of the pea plant (Pisum sativum L.) // Plant Breed. and Seed Sci., 2000. Vol. 44, N 1.-С.85-93
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| Czereednik Absorption of photosynthetically active radiation (PAR) in canopy and yield formation by leafy and semi-leafless morphotypes of the pea plant (Pisum sativum L.) // Plant Breed. and Seed Sci., 2000. Vol. 44, N 1.-С.85-93
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10.
| Diurnal variations in bacterial and viral production in Cochin estuary, India // Environ. Monit. and Assess., 2013. Vol. 185, N 10.-С.8077-8088
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11.
| Diurnal variations in bacterial and viral production in Cochin estuary, India // Environ. Monit. and Assess., 2013. Vol. 185, N 10.-С.8077-8088
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12.
| Diurnal variations in bacterial and viral production in Cochin estuary, India // Environ. Monit. and Assess., 2013. Vol. 185, N 10.-С.8077-8088
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13.
| Diurnal variations in bacterial and viral production in Cochin estuary, India // Environ. Monit. and Assess., 2013. Vol. 185, N 10.-С.8077-8088
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14.
| Diurnal variations in bacterial and viral production in Cochin estuary, India // Environ. Monit. and Assess., 2013. Vol. 185, N 10.-С.8077-8088
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15.
| Hyperspectral estimation of corn fraction of photosynthetically active radiation // Agr. Sci. China, 2007. Vol. 6, N 10.-С.1173-1181
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16.
| Kaup Patterns of photosyntherically active radiation in freshwater lakes of coastal East Antarctica // Verh., 2009. Vol. 30, N 7.-С.1111-1116
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17.
| Kerdkankaew Effects of photosynthetically active radiation and air temperature on CO[2] uptake of Pterocarpus macrocarpus in the open field // Agr. Sci. China, 2005. Vol. 4, N 4.-С.263-272
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18.
| Oijen M.van. Light use efficiencies of potato cultivars with late blight (Phytophthora infestans) // Potato Res., 1991. Vol. 34, N 2.-С.123-132
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19.
| Radiation interception, radiation use efficiency and growth of barley cultivars // Austral. J. Agr. Res., 1993. Vol. 44, N 6.-С.1351-1366
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20.
| Slomka J. Photosynthetjcally active insolation in vegetation periods in Poland // Zesz. probl. post. nauk rol., 1989, N 369.-С.251-253
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