Below is a complete list of my research resources:
Akbar, F. (2015). Trade Policy Analysis of Indonesia Cocoa Industry.
Alfonso Ortega-Huerta, M., Komar, O., Price, K., & J. Ventura, H. (2012). Mapping coffee plantations with Landsat imagery: an example from El Salvador (Vol. 33).
Anitha, K., Verchot, L., Joseph, S., Herold, M., Manuri, S., & Avitabile, V. (2015). A review of forest and tree plantation biomass equations in Indonesia (Vol. 72).
Belsky, J. M., & Siebert, S. F. (2003). Cultivating cacao Implications of sun-grown cacao on local food security and environmental sustainability. Agriculture and Human Values, 20(3), 277-285.
Brown, S. (1997). Estimating Biomass and Biomass Change of Tropical Forests: A Primer (Vol. 134).
Brown, S., Iverson, L. R., & Prasad, A. (2001). Geographical Distribution of Biomass Carbon in Tropical Southeast Asian Forests: A Database. Oak Ridge National Laboratory, Oak Ridge, Tennessee 37831-6290 Carbon Dioxide Information Analysis Center.
Bunn, C., Talsma, T., Läderach, P., & Castro, F. (2017). Climate change impacts on Indonesian cocoa areas: Mondelez International.
Camargo, M., & Nhantumbo, I. (2016). Towards sustainable chocolate: greening the cocoa supply chain. London: IIED.
Chave, J., Andalo, C., Brown, S., Cairns, M. A., Chambers, J. Q., Eamus, D., et al. (2005). Tree allometry and improved estimation of carbon stocks and balance in tropical forests. Oecologia, 145(1), 87-99.
Chemura, A., Van Duren, I., & van Leeuwen, L. (2014). Determination of the age of oil palm from crown projection area detected from WorldView-2 multispectral remote sensing data: The case of Ejisu-Juaben district, Ghana (Vol. 100).
Clerici, N., Rubiano, K., Abd-Elrahman, A., Posada Hoestettler, M. J., & Escobedo, J. F. (2016). Estimating Aboveground Biomass and Carbon Stocks in Periurban Andean Secondary Forests Using Very High Resolution Imagery. Forests, 7(7).
Clough, Y., Barkmann, J., Juhrbandt, J., Kessler, M., Wanger, T. C., Anshary, A., et al. (2011). Combining high biodiversity with high yields in tropical agroforests. [10.1073/pnas.1016799108]. Proceedings of the National Academy of Sciences, 108(20), 8311.
Daniels, S. (2006). Developing best practice guidelines for sustainable models of cocoa production to maximize their impacts on biodiversity protection.
Dawoe, E., Asante, W., Acheampong, E., & Bosu, P. (2016). Shade tree diversity and aboveground carbon stocks in Theobroma cacao agroforestry systems: implications for REDD+ implementation in a West African cacao landscape. Carbon Balance and Management, 11(1), 17.
Ehrenbergerová, L., Cienciala, E., Kucera, A., Guy, L., & Habrova, H. (2015). Carbon stock in agroforestry coffee plantations with different shade trees in Villa Rica, Peru (Vol. 90).
FAO. (2012a). Forest Resources Assessment 2015 Terms and Definitions. Rome: Food and Agriculture Organization of the United Nations.
FAO. (2012b). Global ecological zones for fao forest reporting: 2010 Update. Rome.
FAO. (2016). State of the World’s Forests 2016. Forests and agriculture: Land-use challenges and opportunities. Rome: Food and Agriculture Organization of the United Nations.
FAO. (2018). FAOSTAT statistics database. Rome.
Fischer, J., Brosi, B., Daily Gretchen, C., Ehrlich Paul, R., Goldman, R., Goldstein, J., et al. (2008). Should agricultural policies encourage land sparing or wildlife‐friendly farming? Frontiers in Ecology and the Environment, 6(7), 380-385.
Foley, J. A., Ramankutty, N., Brauman, K. A., Cassidy, E. S., Gerber, J. S., Johnston, M., et al. (2001). Solutions for a cultivated planet.
Gibbs, H., Brown, S., O Niles, J., & A Foley, J. (2007). Monitoring and estimating tropical forest carbon stocks: Making REDD a reality (Vol. 2).
Gibbs, H. K., & Brown, S. (2007). Geographical distribution of biomass carbon in tropical southeast Asian forests: an updated database for 2000. In C. D. I. Center (Ed.). Oak Ridge National Laboratory, Oak Ridge, TN.
Gonzalez de Tanago, J., Lau, A., Bartholomeus, H., Herold, M., Avitabile, V., Raumonen, P., et al. (2017). Estimation of above‐ground biomass of large tropical trees with terrestrial LiDAR. Methods in Ecology and Evolution, 9(2), 223-234.
Hairiah, K., Dewi, S., Agus, F., Ekadinata, A., Rahayu, S., Van Noordwijk, M., et al. (2011). Measuring Carbon stocks across land use systems: A manual (Part A).
Hairiah, K., & Rahayu, S. (2007). Pengukuran ‘karbon tersimpan’ di berbagai macam penggunaan lahan. Bogor, Indonesia: World Agroforestry Centre – ICRAF.
Hansen, M. C., Stehman, S. V., Potapov, P. V., Arunarwati, B., Stolle, F., & Pittman, K. (2009). Quantifying changes in the rates of forest clearing in Indonesia from 1990 to 2005 using remotely sensed data sets. Environmental Research Letters, 4(3).
Houghton, R. A. (1999). The annual net flux of carbon to the atmosphere from changes in land use 1850–1990. Tellus B: Chemical and Physical Meteorology, 51(2), 298-313.
Hung, N. D., Bay, N. V., Binh, N. D., & Tung, N. C. (2012). Tree allometric equations in Evergreen broadleaf, Deciduous, and Bamboo forests in the South East region, Viet Nam. In U.-R. PROGRAMME (Ed.), PART B-5. Hanoi, Vietnam.
IPCC. (2006). 2006 IPCC Guidelines for National Greenhouse Gas Inventories, Prepared by the National Greenhouse Gas Inventories Programme. In B. L. Eggleston H.S., Miwa K., Ngara T. and Tanabe K. (eds) (Ed.). IGES, Japan.
IPCC. (2014). Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Geneva, Switzerland.
Iversen, P., Lee, D., & Rocha, M. (2014). Understanding Land Use in the UNFCCC.
Jacobi, J., Andres, C., Schneider, M., Pillco, M., Calizaya, P., & Rist, S. (2013). Carbon stocks, tree diversity, and the role of organic certification in different cocoa production systems in Alto Beni, Bolivia (Vol. 88).
Krisnawati, H., Imanuddin, R., Adinugroho, W. C., & Hutabarat, S. (2015). Standard Methods for Estimating Greenhouse Gas Emissions from Forests and Peatlands in Indonesia (Version 2), Chapter 2: Standard Method – Initial Conditions. Bogor, Indonesia: Research, Development and Innovation Agency of the Ministry of Environment and Forestry.
Kronseder, K., Ballhorn, U., Boehm, H.-D., & Siegert, F. (2012). Above ground biomass estimation across forest types at different degradation levels in Central Kalimantan using LiDAR data (Vol. 18).
Kumar, L., & Mutanga, O. (2017). Remote Sensing of Above-Ground Biomass. Remote Sensing, 9(9).
Leuschner, C., Moser, G., Hertel, D., Erasmi, S., Leitner, D., Culmsee, H., et al. (2013). Conversion of tropical moist forest into cacao agroforest: Consequences for carbon pools and annual C sequestration (Vol. 87).
Lin, B., B. (2017). Agrobiodiversity, Resilience, Adaptation and Climate Change Routledge Handbook of Agricultural Biodiversity: Routledge.
- Labata, M., Aranico, E., Catalina E. Tabaranza, A., Patricio, H. P., & Amparado, R. (2012). Carbon stock assessment of three selected agroforestry systems in Bukidnon, Philippines (Vol. 4).
MacDicken, K. G. (2015). Global Forest Resources Assessment 2015: What, why and how? Forest Ecology and Management, 352, 3-8.
MoF. (2015). National Forest Reference Emissions Level for REDD+ i n the Context of Decision 1/CP.16 Paragraph 70 UNFCCC, Submission by Indonesia. Republic of Indonesia.
Moriarty, K., Elchinger, M., Hill, G., Katz, J., & Barnett, J. (2014). Cacao Intensification in Sulawesi: A Green Prosperity Model Project. Denver, Colorado: National Renewable Energy Laboratory.
Murphy, B., & Bowman, D. (2012). What controls the distribution of tropical forest and savanna? Ecol Lett (Vol. 15).
Nguyen, N. D., Talsma, T., Nguyen, K. T., Nguyen, T. Q., & Laderach, P. (2018). Carbon assessment for cocoa (Theobroma cacao L.) cropping systems in Lampung, South Sumatra, Indonesia. CIAT.
Noponen, N., Noponen, M., Dewi, S., & Hughell, D. (2017). Policy Brief: Promoting shade cover – the role of cocoa agroforestry in helping to achieve Indonesia’s NDCs: Rainforest Alliance.
Oke, D., & Olatiilu, A. (2011). Carbon Storage in Agroecosystems: A Case Study of the Cocoa Based Agroforestry in Ogbese Forest Reserve, Ekiti State, Nigeria (Vol. 02).
Pearson, T., Walker, S., & Brown, S. (2005). Sourcebook for land use, land-use change and forestry projects Winrock International and the BioCarbon Fund of the World Bank
Plassmann, K., Norton, A., Attarzadeh, N., Jensen, M. P., Brenton, P., & Edwards-Jones, G. (2010). Methodological complexities of product carbon footprinting: a sensitivity analysis of key variables in a developing country context. Environmental Science & Policy, 13(5), 393-404.
Powlson, D. s., Whitmore, A. P., & Goulding, K. (2011). Soil carbon sequestration to mitigate climate change: A critical re-examination to identify the true and the false (Vol. 62).
Ramankutty, N., Gibbs Holly, K., Achard, F., Defries, R., Foley Jonathan, A., & Houghton R, A. (2006). Challenges to estimating carbon emissions from tropical deforestation. Global Change Biology, 13(1), 51-66.
Romijn, E., Ainembabazi, J. H., Wijaya, A., Herold, M., Angelsen, A., Verchot, L., et al. (2013). Exploring different forest definitions and their impact on developing REDD+ reference emission levels: A case study for Indonesia. Environmental Science & Policy, 33, 246-259.
Roshetko, J., Delaney, M., Hairiah, K., & Purnomosidhi, P. (2002). Carbon stocks in Indonesian homegarden systems: Can smallholder systems be targeted for increased carbon storage? (Vol. 17).
Rosoman, G., Sheun, S. S., Opal, C., Anderson, P., Trapshah, R., & editors. (2017). The HCS Approach Toolkit. Singapore: HCS Approach Steering Group.
Ruf, F., & Cirad, Y. (2014). Indonesia cocoa sector assessment How to help Indonesian cocoa farmers to re-invest in cocoa?
Ruf, F., & Zadi, H. (1998). Cocoa: from deforestation to reforestation.
Rügnitz, M., Mario, T., León, C., & Porro, R. (2009). Guía para la determinación de carbono en pequeñas propiedades rurales, 1st ed. Centro Mundial Agroflorestal (ICRAF) / Consórcio Iniciativa Amazônica (IA). Lima, Peru.
Saatchi, S. S., Harris, N. L., Brown, S., Lefsky, M., Mitchard, E. T. A., Salas, W., et al. (2011). Benchmark map of forest carbon stocks in tropical regions across three continents. [10.1073/pnas.1019576108]. Proceedings of the National Academy of Sciences, 108(24), 9899.
Saj, S., Jagoret, P., & Todem Ngogue, H. (2013). Carbon storage and density dynamics of associated trees in three contrasting Theobroma cacao agroforests of Central Cameroon (Vol. 87).
Salunkhe, O., Khare, P. K., Kumari, R., & Khan, M. (2018). A systematic review on the aboveground biomass and carbon stocks of Indian forest ecosystems (Vol. 7).
Schroth, G., Bede, L., Paiva, A., Cassano, C., M. Amorim, A., Faria, D., et al. (2015). Contribution of agroforests to landscape carbon storage (Vol. 20).
Schroth, G., Jeusset, A., da Silva Gomes, A., Tavares Florence, C., A.C. Pinto, N., Faria, D., et al. (2016). Climate-friendliness of cocoa agroforests is compatible with productivity increase (Vol. 21).
Schroth, G., Läderach, P., Martinez-Valle, A. I., Bunn, C., & Jassogne, L. (2016). Vulnerability to climate change of cocoa in West Africa: Patterns, opportunities and limits to adaptation. Science of The Total Environment, 556, 231-241.
Segura, M., & Kanninen, M. (2005). Allometric Models for Tree Volume and Total Aboveground Biomass in a Tropical Humid Forest in Costa Rica1 (Vol. 37).
Smiley, G. L., & Kroschel, J. (2008). Temporal change in carbon stocks of cocoa–gliricidia agroforests in Central Sulawesi, Indonesia. Agroforestry Systems, 73(3), 219-231.
Somarribaa, E., Cerda, R., Orozcoa, L., Cifuentes, M., Dávilaa, H., Espina, T., et al. (2013). Carbon stocks and cocoa yields in agroforestry systems of Central America (Vol. 173).
Stas, S. (2014). Above-ground biomass and carbon stocks in a secondary forest in comparison with adjacent primary forest on limestone in Seram, the Moluccas, Indonesia.
Swisscontact. (2016). Carbon Stock and Carbon Footprint in the Indonesian Cocoa Sector Sustainable Cocoa Production Program SCPP. Jakarta.
Syam, T., Nishide, H., Salam, A. K., Utomo, M., Mahi, A. K., Lumbanraja, J., et al. (1997). Land use and cover changes in a Hilly Area of South Sumatra, Indonesia (from 1970 to 1990). Soil Science and Plant Nutrition, 43(3), 587-599.
UNFCCC. (2015). Indonesia First Biennial Update Report (BUR): Ministry of Environment and Forestry.
van Noordwijk, M., Rahayu, S., Hairiah, K., Wulan, Y. C., Farida, A., & Verbist, B. (2002). Carbon stock assessment for a forest-to-coffee conversion landscape in Sumber-Jaya (Lampung, Indonesia): from allometric equations to land use change analysis. Science in China, Vol. 45(October 2002).
van Rikxoort, H., Schroth, G., Laderach, P., & Rodríguez-Sánchez, B. (2014). Carbon footprints and carbon stocks reveal climate-friendly coffee production (Vol. 34).
Vashum, K. T., & Jayakumar, S. (2012). Methods to Estimate Above-Ground Biomass and Carbon Stock in Natural Forests – A Review. Ecosystem & Ecography, Volume 2(Issue 4).
Wijaya, A., A. Sugardiman Budiharto, R., Tosiani, A., Murdiyarso, D., & Verchot, L. V. (2015). Assessment of Large Scale Land Cover Change Classifications and Drivers of Deforestation in Indonesia (Vol. XL-7/W3).
Witjaksono, J. (2016). Cocoa Farming System in Indonesia and Its Sustainability Under Climate Change (Vol. 5).
Wulandari, C., Aryadi, M., & Budiono, P. (2010). ENHANCING AGROFORESTRY KNOWLEDGE AND SKILLS OF LOCAL COMMUNITIES IN LAMPUNG, INDONESIA FOR CLIMATE CHANGE ADAPTATION.