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Life cycle environmental impact assessment of biochar-based bioenergy production and utilization in Northwestern Ontario,Canada

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Journal of Forestry Research 2015年第4期26卷 799-809页

作者： Krish Homagain Chander Shahi Nancy Luckai Mahadev Sharma Faculty of Natural Resources Management Lakehead University Ontario Forest Research Institute

Biochar-based bioenergy production and sub- sequent land application of biochar can reduce greenhouse gas emissions by fixing atmospheric carbon into the soil for a long period of time. A thorough life cycle assessment of biochar-based bioenergy production and biochar land application in Northwestern Ontario is conducted using SimaPro Ver. 8.1. The results of energy consumption and potential environmental impact of biochar-based bioenergy production system are compared with those of conventional coal-based system. Results show that biocbar land application consumes 4847.61 MJ per tonne dry feedstock more energy than conventional system, but reduces the GHG emissions by 68.19 kg CO2e per tonne of dry feed- stock in its life cycle. Biochar land application improves ecosystem quality by 18 %, reduces climate change by 15 %, and resource use by 13 % but may adversely impact on human health by increasing disability adjusted life years by 1.7 % if biomass availability is low to medium. Replacing fossil fuel with woody biomass has a positiveimpact on the environment, as one tonne of dry biomass feedstock when converted to biochar reduces up to 38 kg CO2e with biochar land application despite using more energy. These results will help understand a comprehensive picture of the new interventions in forestry businesses, which are promoting biochar-based bioenergy production.

关键词： Woody biomass Carbon sequestration Environmental impact assessment greenhouse gasemissions Life cycle analysis Soil amendment

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Mitigating greenhouse gas of chemical fertilizer with farmland emissions through replacement organic manure in a temperate

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Science Bulletin 2015年第6期60卷 598-606,M0003页

作者： Haitao Liu Jing Li Xiao Li Yanhai Zheng Sufei Feng Gaoming Jiang State Key Laboratory of Vegetation and Environmental Change Institute of Botany Chinese Academy of SciencesBeijing 100093 China University of the Chinese Academy of Sciences Beijing 100049China State Key Laboratory of Crop Biology College of AgronomyShandong Agricultural University Tai'an 271018 China

Burning crop residues and excessive use of chemical fertilizers results in an enormous waste of bio- logical resources, which further weakens the potential capacity of the agro-ecosystem as a carbon sink. To explore the potential of farmlands acting as a carbon sink without yield losses, we conducted an experiment on a temperate eco-farm in eastern rural China. Crop residues were applied to cattle feed, and the composted cattle manure was returned to cropland with a winter wheat and maize rotation. Four different proportions of fertilizers were designed： 100 % cattle manure, 100 % mineral nitrogen, 75 % cattle manure plus 25 % mineral nitrogen, and 50 % cattle manure plus 50 % mineral nitrogen. Crop yield and greenhouse gas （GHG） emissions were carefully calculated according to the Intergovernmental Panel on Climate Change （IPCC） Guidelines for National Green- house Gas Inventories 2006. Our results showed that replacing chemical fertilizer with organic manure signifi- cantly decreased the emission of GHGs. Yields of wheat and corn also increased as the soil fertility was improved by the application of cattle manure. Totally replacing chemical fertilizer with organic manure decreased GHG emissions, which reversed the agriculture ecosystem from a carbon source （＋2.7 t CO_2-eq. hm-2 year-1） to a carbon sink （-8.8 t CO_2-eq. hm^-2 year^-1）. Our findings provide useful insights for improving agricultural ecosystems under global change scenarios.

关键词： Crop residue Chemical fertilizer Cattle manure Crop yield greenhouse gasemissions Climate change

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