Leigh Winowiecki
Leigh Winowiecki
World Agroforestry Centre (ICRAF)
Bestätigte E-Mail-Adresse bei cgiar.org
Zitiert von
Zitiert von
Soil carbon 4 per mille
B Minasny, BP Malone, AB McBratney, DA Angers, D Arrouays, ...
Geoderma 292, 59-86, 2017
Digital soil map of the world
PA Sanchez, S Ahamed, F Carré, AE Hartemink, J Hempel, J Huising, ...
Science 325 (5941), 680-681, 2009
Employing philosophical dialogue in collaborative science
SD Eigenbrode, M O'rourke, JD Wulfhorst, DM Althoff, CS Goldberg, ...
BioScience 57 (1), 55-64, 2007
A global spectral library to characterize the world's soil
RAV Rossel, T Behrens, E Ben-Dor, DJ Brown, JAM Demattê, ...
Earth-Science Reviews 155, 198-230, 2016
Monitoring the world's agriculture
J Sachs, R Remans, S Smukler, L Winowiecki, SJ Andelman, ...
Nature 466 (7306), 558-560, 2010
Mapping of soil properties and land degradation risk in Africa using MODIS reflectance
TG Vågen, LA Winowiecki, JE Tondoh, LT Desta, T Gumbricht
Geoderma 263, 216-225, 2016
Mapping of soil organic carbon stocks for spatially explicit assessments of climate change mitigation potential
TG Vågen, LA Winowiecki
Environmental Research Letters 8 (1), 015011, 2013
Cocoa: from deforestation to reforestation
F Ruf, H Zadi
Smithsonian Institute, 1998
Incorporating livelihoods in biodiversity conservation: a case study of cacao agroforestry systems in Talamanca, Costa Rica
RM Dahlquist, MP Whelan, L Winowiecki, B Polidoro, S Candela, ...
Biodiversity and conservation 16 (8), 2311-2333, 2007
Landsat-based approaches for mapping of land degradation prevalence and soil functional properties in Ethiopia
TG Vågen, LA Winowiecki, A Abegaz, KM Hadgu
Remote Sensing of Environment 134, 266-275, 2013
Effects of land cover on ecosystem services in Tanzania: A spatial assessment of soil organic carbon
L Winowiecki, TG Vågen, J Huising
Geoderma 263, 274-283, 2016
Tools for enhancing interdisciplinary communication
L Winowiecki, S Smukler, K Shirley, R Remans, G Peltier, E Lothes, ...
Sustainability: Science, practice and policy 7 (1), 74-80, 2011
introduction to tropical soils
P Vageler, H Greene
Macmillan and Co., Limited, 1933
Climate smart agriculture rapid appraisal (CSA-RA): A tool for prioritizing context-specific climate smart agriculture technologies
C Mwongera, KM Shikuku, J Twyman, P Läderach, E Ampaire, ...
Agricultural Systems 151, 192-203, 2017
Smallholder farmers’ attitudes and determinants of adaptation to climate risks in East Africa
KM Shikuku, L Winowiecki, J Twyman, A Eitzinger, JG Perez, ...
Climate Risk Management 16, 234-245, 2017
Profitable and sustainable nutrient management systems for East and Southern African smallholder farming systems challenges and opportunities: a synthesis of the Eastern and …
R Sommer, D Bossio, L Desta, J Dimes, J Kihara, S Koala, N Mango, ...
CIAT, 2013
AfSIS technical specifications: soil health surveillance
TG Vågen, KD Shepherd, MG Walsh, L Winowiecki, LT Desta, JE Tondoh
Africa Soil Information Service (AfSIS). Nairobi, Kenya: World Agroforestry …, 2010
Guía para reducir la captura de fauna incidental (bycatch) en las pesquerías por arrastre de camarón tropical
S Eayrs
Fao, 2007
Spatial and temporal dynamics of soil organic carbon in landscapes of the upper Blue Nile Basin of the Ethiopian Highlands
A Abegaz, LA Winowiecki, TG Vågen, S Langan, JU Smith
Agriculture, Ecosystems & Environment 218, 190-208, 2016
Landscape-scale variability of soil health indicators: effects of cultivation on soil organic carbon in the Usambara Mountains of Tanzania
L Winowiecki, TG Vågen, B Massawe, NA Jelinski, C Lyamchai, G Sayula, ...
Nutrient Cycling in Agroecosystems 105 (3), 263-274, 2016
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