Martin F. Ellis scite author profile

Eucalypts can be very productive when intensively grown as short rotation woody crops (SRWC) for bioproducts. In Florida, USA, a fertilized, herbicided, and irrigated cultivar planted at 2471 trees/ha could produce over 58 green mt/ha/year in 3.7 years, and at 2071 trees/ha, its net present value (NPV) exceeded $750/ha at a 6% discount rate and stumpage price of $11.02/green mt. The same cultivar grown less intensively at three planting densities had the highest stand basal area at the highest density through 41 months, although individual tree diameter at breast height (DBH) was the smallest. In combination with an organic fertilizer, biochar improved soil properties, tree leaf nutrients, and tree growth within 11 months of application. Biochar produced from Eucalyptus and other species is a useful soil amendment that, especially in combination with an organic fertilizer, could improve soil physical and chemical properties and increase nutrient availability to enhance Eucalyptus tree nutrition and growth on sandy soils. Eucalypts produce numerous naturally occurring bioproducts and are suitable feedstocks for many other biochemically or thermochemically derived bioproducts that could enhance the value of SRWCs.

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Economic potential for carbon sequestration by short rotation eucalypts using biochar in Florida, USA

Rockwood¹,

Ellis

Fabbro³

2022

Trees, Forests and People

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Field Drying for Enhancing Biomass Quality of Eucalyptus Logs and Trees in Florida, USA

Rockwood

Tamang²,

Ellis

2023

Forests

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Field drying Eucalyptus biomass can minimize the storage requirements, transportation costs, and/or the cost associated with biomass drying for biochar and other products. In central Florida, 12 6-year-old and 12 8-year-old Eucalyptus amplifolia and Eucalyptus grandis trees were field dried over two seasons, with two months of field drying in each season, and two tree forms (logs, whole tree). The whole tree average initial moisture content (MCod) on a dry basis ranged between 115 and 121% in E. amplifolia and 116 and 119% in E. grandis. The season and duration of field drying affected drying, but species, tree size, and tree form did not. In southern Florida, 19 3+-year-old coppice stems of an E. grandis × Eucalyptus urophylla hybrid clone (EH1) were field dried over two months of one season, with and without tree tops. The whole tree initial MCod ranged between 119 and 138%. The duration of field drying affected drying, but tree size and tree tops did not. Both studies suggest that field drying can effectively reduce wood MC and thus enhance E. amplifolia, E. grandis, and EH1 biomass quality.

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Martin F. Ellis

Comparative effectiveness of activated dolomite phosphate rock and biochar for immobilizing cadmium and lead in soils

Forest Trees for Biochar and Carbon Sequestration: Production and Benefits

Short Rotation Eucalypts: Opportunities for Biochar

Economic potential for carbon sequestration by short rotation eucalypts using biochar in Florida, USA

Field Drying for Enhancing Biomass Quality of Eucalyptus Logs and Trees in Florida, USA

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