Browsing Norwegian Geotechnical Institute (NGI) Digital Archive by Author "Pandit, Naba Raj"
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Biochar from "Kon Tiki" flame curtain and other kilns: Effects of nutrient enrichment and kiln type on crop yield and soil chemistry
Pandit, Naba Raj; Mulder, Jan; Hale, Sarah; Schmidt, Hans Peter; Cornelissen, Gerard (Peer reviewed; Journal article, 2017)Biochar application to soils has been investigated as a means of improving soil fertility and mitigating climate change through soil carbon sequestration. In the present work, the invasive shrub "Eupatorium adenophorum" ... -
Biochar improves maize growth by alleviation of nutrient stress in a moderately acidic low-input Nepalese soil
Pandit, Naba Raj; Mulder, Jan; Hale, Sarah; Martinsen, Vegard; Schmidt, Hans Peter; Cornelissen, Gerard (Peer reviewed; Journal article, 2018)We studied the role of biochar in improving soil fertility for maize production. The effects of biochar on the alleviation of three potential physical-chemical soil limitations for maize growth were investigated, i.e. water ... -
Emissions and Char Quality of Flame-Curtain "Kon Tiki" Kilns for Farmer-Scale Charcoal/ Biochar Production
Cornelissen, Gerard; Pandit, Naba Raj; Taylor, Paul; Pandit, Bishnu Hari; Sparrevik, Magnus; Schmidt, Hans Peter (Journal article, 2016) -
Multi-year double cropping biochar field trials in Nepal: Finding the optimal biochar dose through agronomic trials and cost-benefit analysis
Pandit, Naba Raj; Mulder, Jan; Hale, Sarah; Zimmermann, Andrew R.; Pandit, Bishnu Hari; Cornelissen, Gerard (Peer reviewed; Journal article, 2018)Poor water and nutrient retention are the major soil fertility limitations in the low productivity agricultural soils of Nepal. The addition of biochar to these soils is one way these hindrances can be overcome. In the ... -
Nutrient effect of various composting methods with and without biochar on soil fertility and maize growth
Pandit, Naba Raj; Schmidt, Hans Peter; Mulder, Jan; Hale, Sarah; Husson, Olivier; Cornelissen, Gerard (Journal article; Peer reviewed, 2019)This work showed for the first time that organic nutrient transformation techniques based on locally available materials (manure, green waste and advanced biochar) can increase fertilizing efficiency of the resulting ...