Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
Table 1: Improvement in chemical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 2: Improvement in physical properties of soil supporting Eucalyptus tereticornis plantations on sodic wastelands in Sultanpur district, India
Table 3: Rehabilitation of sodic soil through different trees species
Table 4: Heavy metal accumulation on mine soil in different tissues of eucalyptus hybrid
Table 5: Soil nutrient balance and Nutrients in the litter of eucalyptus plantation
Figure 1: Wheat yield obtained with and without Eucalyptus plantation in Haryana
Table 6: Fresh and dry biomass, carbon sequester t ha-1 under strip plantation in Haryana
Table 7 : Water consumption of different trees and crops per total biomass produced by IPMA
Table 8: water consumption per biomass production of eucalypts compared with other tree species
Table 9: Soil properties affected by land-use systems at Karnal, India
Table 10: Comparison of eucalyptus plantation with different trees and crops
Table 11: Economics of Eucalypts with and without intercropping of 8 year plantation
Figure 2: Global paper production of different grades from eucalyptus (SFIF, 2011)
Figure 3: Global pulp production from Eucalyptus (SFIF, 2011)
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