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Общее количество найденных документов : 69
Показаны документы с 1 по 20
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1.
| Biochar helps enhance maize productivity and reduce greenhouse gas emissions under balanced fertilization in a rainfed low fertility inceptisol // Chemosphere, 2016. Vol. 142.-С.106-113
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| Изменение нитрификационной и денитрификационной способности дерново-подзолистой супесчаной почвы при внесении биоугля // Агрофизика, 2016, N 1.-С.17-23
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| Effects of biochar on photosystem function and activities of protective enzymes in Pyrus ussuriensis Maxim. under drought stress // Acta physiol. plant., 2016. Vol. 38, N 9.-С.220/1-220/10
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| Soil amendment with biochar increases maize yields in a semi-arid region by improving soil quality and root growth // Crop and Pasture Sci., 2016. Vol. 67, N 5.-С.495-507
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| Changes in soil nutrient availability explain biochar's impact on wheat root development // Plant and Soil, 2016. Vol. 399, N 1-2.-С.333-343
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| Contrasting effects of aged and fresh biochars on glucose-induced priming and microbial activities in paddy soil // J. Soils and Sediments, 2016. Vol. 16, N 1.-С.191-203
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| Effects of manure- and lignocellulose-derived biochars on adsorption and desorption of zinc by acidic types of soil with different properties // Eur. J. Soil Sci., 2016. Vol. 67, N 1.-С.40-50
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| Field application of pelletized biochar: Short term effect on the hydrological properties of a silty clay loam soil // Agr. Water Manag., 2016. Vol. 163.-С.190-196
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| Three-dimensional pore structure and carbon distribution of macroaggregates in biochar-amended soil // Eur. J. Soil Sci., 2016. Vol. 67, N 1.-С.109-120
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| Phosphorus availability from bone char in a P-fixing soil influenced by root-mycorrhizae-biochar interactions // Plant and Soil, 2016. Vol. 408, N 1-2.-С.95-105
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| ВЛИЯНИЕ БИОУГЛЯ НА РОСТ РАСТЕНИЙ, МИКРОБИОЛОГИЧЕСКИЕ И ФИЗИКО-ХИМИЧЕСКИЕ ПОКАЗАТЕЛИ МАЛО ГУМУСИРОВАННОЙ ПОЧВЫ В УСЛОВИЯХ ВЕГЕТАЦИОННОГО ОПЫТА // Вестн. Казан. технол. ун-та, 2016. Т. 19, N 11.-С.185-189
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| The changes in biochar properties and sorption capacities after being cultured with wheat for 3 months // Chemosphere, 2016. Vol. 144.-С.2257-2263
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| Dissipation of fomesafen in biochar-amended soil and its availability to corn (Zea mays L.) and earthworm (Eisenia fetida) // J. Soils and Sediments, 2016. Vol. 16, N 10.-С.2439-2448
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| Impact of pigeon pea biochar on cadmium mobility in soil and transfer rate to leafy vegetable spinach // Environ. Monit. and Assess., 2016. Vol. 188, N 1.-С.31/1-31/10
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| Wang Y. Biochar application promotes growth parameters of soybean and reduces the growth difference // Commun. Soil Sci. and Plant Anal., 2016. Vol. 47, N 12.-С.1493-1502
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| Сравнение ремедиационных эффектов Биочара и Лигногумата на почвы при полиметаллическом загрязнении // Теор. и прикл. экол., 2016, N 2.-С.79-85
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| Infuence of biochar application on nutritional quality of tomato (Lycopericon esculentum) // Crop and Pasture Sci., 2015. Vol. 66, N 7.-С.474-755
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18.
| The effect of addition of a wettable biochar on soil water repellency // Eur. J. Soil Sci., 2015. Vol. 66, N 6.-С.1063-1073
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19.
| Effects of straw and straw biochar on whear nutrient uptake and enzyme activity in brown soil // Shengtai xuebao, 2015. Vol. 35, N 15.-С.5269-5277
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20.
| Miltner Benjamin C. Indigenous innovation incorporates biochar into swidden-fallow agroforestry systems in Amazonian Peru // Agroforestry Syst., 2015. Vol. 89, N 3.-С.409-420
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