Contribution of cocoa agroforestry systems to family income and domestic consumption: looking toward intensification

Alvim R, Nair PKR (1986) Combination of cacao with other plantation crops: an agroforestry system in Southeast Bahia, Brazil. Agrofor Syst 4:3–15

Aulong S, Duray S, Temple L (2000) Dynamique et structure floristique des agroforêts à agrumes au centre du Cameroun. Fruits 55:103–114

Bates D, Maechler M, Matrix LT (2011) “Package ‘lme4’”/packages/lme4/lme4. http://mirrors.dotsrc.org/pub/pub/cran/web/packages/lme4/lme4.pdf . Accessed 26 Feb 2012

Beer J, Muschler R, Somarriba E, Kass D (1998) Shade management in coffee and cacao plantations. Agrofor Syst 38:139–164

Bisseleua D, Missoup AD, Vidal S (2009) Biodiversity conservation, ecosystem functioning, and economic incentives under cocoa agroforestry intensification. Conserv Biol 23:1176–1184

Bos MM, Steffan-Dewenter I, Tscharntke T (2007) Shade tree management affects fruit abortion, insect pests and pathogens of cacao. Agric Ecosyst Environ 120:201–205

Chitakira M, Torquebiau E (2010) Barriers and coping mechanisms relating to agroforestry adoption by smallholder farmers in Zimbabwe. J Agric Educ Ext 16:147–160

Clarke KR (1993) Non-parametric multivariate analyses of changes in community structure. Aust J Ecol 18:117–143

Clough Y, Faust H, Tscharntke T (2009) Cacao boom and bust: sustainability of agroforests and opportunities for biodiversity conservation. Conserv Lett 2:197–205

Clough Y, Barkmann J, Juhrbandt J, Kessler M, Wanger TC, Anshary A, Buchori D, Cicuzza D, Darras K, Putra D, Erasmi S, Pitopang R, Schmidt C, Schulze CH, Seidel D, Steffan-Dewenter I, Stenchly K, Vidal S, Weist M, Wielgoss AC, Tscharntke T (2011) Combining high biodiversity with high yields in tropical agroforests. Proc Natl Acad Sci USA 108:8311–8316

Dahlquist RM, Whelan MP, Winowiecki L, Polidoro B, Candela S, Harvey CA, Wulfhorst JD, McDaniel PA, Bosque-Pérez NA (2007) Incorporating livelihoods in biodiversity conservation: a case study of cacao agroforestry systems in Talamanca, Costa Rica. Biodivers Conserv 16:2311–2333

Degrande A, Schreckenberg K, Mbosso Ch, Anegbeh P, Okafor V, Kanmegne J (2006) Farmers’ fruit tree-growing strategies in the humid forest zone of Cameroon and Nigeria. Agrofor Syst 67:159–175

Deheuvels O (2011) Compromis entre productivité et biodiversité sur un gradient d’intensité de gestion de systèmes agroforestiers à base de cacaoyers de Talamanca, Costa Rica. SupAgro, Montpellier, p 184

Deheuvels O, Avelino J, Somarriba E, Malezieux E (2012) Vegetation structure and productivity in cocoa-based agroforestry systems in Talamanca, Costa Rica. Agric Ecosyst Environ 149:181–188

Deheuvels O, Rousseau GX, Soto Quiroga G, Decker Franco M, Cerda R, Somarriba E (2014) How biodiversity is affected by changes in management intensity of cocoa-based agroforests?. Agrofor Syst (in press)

Di Rienzo JA, Casanoves F, Pla L, Vilchez S, Di Rienzo DM (2010) QEco-Quantitative ecology software: a collaborative approach. Latin Am J Conserv 1:73–75

Di Rienzo JA, Casanoves F, Balzarini MG, Gonzalez L, Tablada M, Robledo CW (2013) InfoStat versión 2009. Grupo InfoStat, Universidad Nacional de Córdoba, Argentina

Duguma B, Gockowski J, Bakala J (2001) Smallholder Cacao (Theobroma cacao Linn.) cultivation in agroforestry systems of West and Central Africa: challenges and opportunities. Agrofor Syst 51:177–188

Egbe NE, Adenikinju SA (1990) Effect of intercropping on potential yield of cocoa in south western Nigeria. Café, Cacao, Thé 34:281–284

Fundación Hondureña de Investigación Agrícola (FHIA) (2007) Uso de especies maderables tropicales latifoliadas como sombra del cacao. Programa de Cacao y Agroforestería. Hoja técnica 1:1–5

Franzen M, Borgerhoff M (2007) Ecological, economic and social perspectives on cocoa production worldwide. Biodivers Conserv 16:3835–3849

Gockowski J, Dury S (1999) The economics of cocoa-fruit agroforests in southern Cameroon. In: Proceedings in international symposium multi-strata agroforetry systems with perennial crops. Costa Rica, p 239–241

Gockowski J, Sonwa D (2011) Cocoa intensification scenarios and their predicted impact on co2 emissions, biodiversity conservation, and rural livelihoods in the guinea rain forest of west africa. Environ Manage 48:307–321

Gockowski J, Tchatat M, Dondjang JP, Hietet G, Fouda T (2010) An empirical analysis of the biodiversity and economic returns to cocoa agroforests in southern Cameroon. J Sustainable For 29:638–670

Green RE, Cornell SJ, Scharlemann JPW, Bamford A (2005) Farming and the fate of wild nature. Science 307:550–555

Guillerme S, Kumar BM, Menon A, Hinnewinkel C, Maire E, Santhoshkumar A (2011) Impacts of public policies and farmer preferences on agroforestry practices in kerala, India. Environ Manag 48:351–364

Herzog F, Gotsch N (1998) Assessing the sustainability of smallholder tree crop production in the tropics: a methodological outline. J Sustain Agric 11:13–37

Jagoret P, Bouambi E, Menimo T, Domkam I, Batomen F (2008) Analyse de la diversité des systèmes de pratiques en cacaoculture. Cas du Centre Cameroun. Biotechnol Agron Soc Environ 12(4):367–377

Jagoret P, Todem Ngogue H, Bouambi E, Battini JL, Nyassé S (2009) Diversification des exploitations agricoles à base de cacaoyer au Centre Cameroun: mythe ou réalité ? Biotechnol Agron Soc Environ 13(2):271–280

Jagoret P, Michel-Dounias I, Malézieux E (2011) Long-term dynamics of cocoa agroforests: a case study in central Cameroon. Agrofor Syst 81:267–278

Jagoret P, Michel-Dounias I, Snoeck D, Todem Ngnogue H, Malézieux E (2012) Afforestation of savannah with cocoa agroforestry systems: a small-farmer innovation in central Cameroon. Agrofor Syst 86:493–504

Jamnadass RH, Dawson IK, Franzel S, Leakey RRB, Mithöfer D, Akinnifesi FK, Tchoundjeu Z (2011) Improving livelihoods and nutrition in sub-Saharan Africa through the promotion of indigenous and exotic fruit production in smallholders’ agroforestry systems: a review. International For Rev 13:338–354

Kessler M, Hertel D, Jungkunst HF, Kluge J, Abrahamczyk S et al (2012) Can joint carbon and biodiversity management in tropical agroforestry landscapes be optimized? PLoS ONE 7(10):e47192. doi: 10.1371/journal.pone.0047192

Kuwornu JKM, Agyei-Holmes A, Osei-Asare YB (2011) Econometric analysis of cocoa production and deforestation in Ghana: the role of technological innovations. World J Agric Sci 7:722–732

Laird SA, Leke Awung G, Lysinge RJ (2007) Cocoa farms in the Mount Cameroon region: biological and cultural diversity in local livelihoods. Biodivers Conserv 16:2401–2427

Leach AW, Mumford JD, Krauss U (2002) Modelling Moniliophthora roreri in Costa Rica. Crop Protection 21:317–326

Leakey RRB, Tchoundjeu Z (2001) Diversification of tree crops: domestication of companion crops for poverty reduction and environmental services. Expl Agric 37:279–296

Leakey RRB, Tchoundjeu Z, Schreckenberg K, Shackleton SE, Shackleton ChM (2005) Agroforestry tree products (AFTPs): targeting poverty reduction and enhanced livelihoods. Int J Agric Sustain 3:1–23

López A, Somarriba E (2005) Árboles frutales en fincas de cacao orgánico del Alto Beni, Bolivia. Agrofor en las Américas 43–44:38–45

Millard E (2011) Incorporating agroforestry approaches into commodity value chains. Environ Manag 48:365–377

Mussak MF, Laarman JG (1989) Farmers’ production of timber trees in cacao-coffee region of coastal Ecuador. Agrofor Syst 9:155–170

Nair PKR, Nair VD, Kumar BM, Showalter JM (2010) Carbon sequestration in agroforestry systems. Adv Agron 108:237–307

Ngo Bieng MA, Gidoin C, Avelino J, Cilas C, Deheuvels O, Wery J (2013) Diversity and spatial clustering of shade trees affect cacao yield and pathogen pressure in Costa Rican agroforests. Basic Appl Ecol 14(4):329–336

Obiri BD, Bright GA, McDonald MA, Anglaeere LCN, Cobbina J (2007) Financial analysis of shaded cacao in Ghana. Agrofor Syst 71:139–149

Oladokun MAO (1990) Tree crop based agroforestry in Nigeria: a checklist of crops intercropped with cacao. Agrofor Syst 11:227–241

Orozco L, Somarriba E (2005) Árboles maderables en fincas de cacao orgánico del Alto Beni, Bolivia. Agroforestería en las Américas 43–44:46–53

Orozco L, López A, Somarriba E (2008) Enriquecimiento de fincas cacaoteras con frutales y maderables en Alto Beni, Bolivia. Agroforestería en las Américas 46:65–72

Osei-Bonsu K, Opoku-Ameyaw K, Amoah FM, Oppong FK (2002) Cacao-coconut intercropping in Ghana: agronomic and economic perspectives. Agrofor Syst 55:1–8

Palm CA, van Noordwijk M, Woomer PL, Alegre JC, Arévalo L, Castilla CE, Cordeiro DG, Hairiah K, Kotto-Same J, Moukam A, Parton WJ, Riese A, Rodrigues V, Sitompul SM (2005) Carbon losses and sequestration after land use change in the humid tropics. In: Palm CA, Vosti SA, Sanchez PA, Ericksen PJ (eds) Slash and burn: the search for alternatives. Columbia University Press, New York, p 463

Perfecto I, Vandermeer J (2008) Biodiversity conservation in tropical agroecosystems—a new conservation paradigm. Ann N Y Acad Sci 1134:173–200

Perfecto I, Rice RA, Greenberg R (1996) Shade Coffee: a disappearing refuge for biodiversity. Bioscience 46:598–608

Pinheiro JC, Bates DM (2000) Mixed-effect models in S and S-PLUS. Springer, New York

Place F, Dewees P (1999) Policies and incentives for the adoption of improved fallows. Agrofor Syst 47:323–343

Ramírez OA, Somarriba E, Ludewigs T, Ferreira P (2001) Financial returns, stability and risk of cacao-plantain-timber agroforestry systems in Central America. Agrofor Syst 51:141–154

Rice R (2008) Agricultural intensification within agroforestry: the case of coffee and wood products. Agric Ecosyst Environ 128:212–218

Rice RA, Greenberg R (2000) Cacao cultivation and the conservation of biological diversity. Ambio 29:81–87

Rosenberg DE, Marcotte TP (2005) Land-use system modeling and analysis of shaded cacao production in Belize. Agrofor Syst 64:117–129

Rousseau GX, Deheuvels O, Rodriguez Arias I, Somarriba E (2012) Indicating soil quality in cacao-based agroforestry systems and old-growth forests: the potential of soil macrofauna assemblage. Ecol Ind 23:535–543

Ryan D, Bright GA, Somarriba E (2009) Damage and yield change in cocoa crops due to harvesting of timber shade trees in Talamanca, Costa Rica. Agrofor Syst 77:97–106

Sambuichi RHR (2006) Estrutura e dinámica do componente arbóreo em área de cabruca na região cacaueira do sul da Bahia. Acta Botanica Brasilera 20:943–954

Sánchez J, Dubón A, Krigsvold D (2002) Uso de rambután (Nephelium lappaceum) con cedro (Cedrela odorata) y Laurel negro (Cordia megalantha) como sombra permanente en el cultivo de cacao. Proc Interamer Soc Trop Hort 46:57–60

Scherr SJ, Wallace C, Buck L (2010) Rural innovation for food security and poverty reduction in the 21st century: issues for Africa and the World. Issues Paper for State of the World 2011: Innovations that nourish the planet. http://www.worldwatch.org/files/pdf/SOW11%20Issues%20Paper_%20Annex_Final.pdf . Accessed 28 July 2013

Schroth G, Harvey CA (2007) Biodiversity conservation in cocoa production landscapes: an overview. Biodivers Conserv 16:2237–2244

Schroth G, Da Fonseca GAB, Harvey CA, Gascon C, Vasconcelos HL, Izac AMN (eds) (2004) Agroforestry and Biodiversity Conservation in Tropical Landscapes. Island Press, Washington, DC, p 523

Schulze CH, Waltert M, Kessler PJA, Pitopang R, Shahabuddin, Veddeler D, Mu¨hlenberg M, Gradstein SR, Leuschner C, Steffan-Dewenter I, Tscharntke T (2004) Biodiversity indicator groups of tropical land-use systems: comparing plants, birds and insects. Ecol Appl 14:1321–1333

Sharrock S, Frison E (1999) Musa production around the world-trends, varieties and regional importance. INIBAP Annual Report (1998). Montpellier, pp 42–47

Smith P, Martino D (2007) Agriculture, in climate change 2007. Fourth IPCC Assessment Report. IPCC, Geneva, p 56

Snoeck D, Lacote R, Kéli J, Doumbia A, Chapuset T, Jagoret P, Gohet É (2013) Association of rubber with other tree crops can be more profitable than hevea monocrop during first 12 years. Ind Crops Prod 43:578–586

Somarriba E (2007) Cacao and Shade Trees: Production, Diversification and Environmental Services. GRO-Cacao, No.11. p. 1–4

Somarriba E, Beer J (2011) Productivity of theobroma cacao agroforestry systems with timber or legume service shade trees. Agrofor Syst 81:109–121

Somarriba E, Beer J, Alegre-Orihuela J, Andrade H, Cerda R, DeClerck F, Detlefsen G, Escalante M, Giraldo LA, Ibrahim M, Krishnamurthy L, Mena VE, Mora-Delgado J, Orozco L, Scheelje M, Campos JJ (2012) Mainstreaming agroforestry in Latin America. In: Nair PKR, Garrity DP (eds) Agroforestry: the way forward. Advances in Agroforestry 9. Springer, New York, pp 429–453

Somarriba E, Cerda R, Orozco L, Cifuentes M, Davila H, Espin T, Mavisoy H, Avila G, Alvarado E, Poveda V, Astorga C, Say E, Deheuvels O (2013) Carbon stocks and cocoa yields in agroforestry systems of Central America. Agric Ecosyst Environ 173:46–57

Somarriba E, Suárez-Islas A, Calero-Borge W, Villota A, Castillo C, Vilchez S, Deheuvels O, Cerda R (2014) Cocoa-timber agroforestry systems: Theobroma cacao–Cordia alliodora in Central America. Agrofor Syst. doi: 10.1007/s10457-014-9692-7

Steffan-Dewenter I, Kessler M, Barkmann J et al (2007) Tradeoffs between income, biodiversity, and ecosystem functioning during tropical rainforest conversion and agroforestry intensification. Proc Natl Acad Sci USA 104:4973–4978

Tejada C, Andujar F (2004) Caracterización del sistema de producción cacao (Theobroma cacao) en la provincia de Duarte. Proceedings Agroforestería: resultados de investigación. Santo Domingo, República Dominicana, pp 81–96

Texeira A (1999) Economic study of four agroforestry models with cocoa crops in Brazilian Amazonia. Proceedings in International symposium Multistrata agroforestry systems with perennial crops. Costa Rica, pp 272–276

Tscharntke T, Clough Y, Bhagwat SA, Buchori D, Faust H, Hertel D, Lscher DH, Juhrbandt J, Kessler M, Perfecto I, Scherber Ch, Schroth G, Veldkamp E, Wanger TC (2011) Multifunctional shade-tree management in tropical agroforestry landscapes—a review. J Appl Ecol 48:619–629

Villareal A, Carrero O, Arrends E, Sanchez D, Escalante E (2006) Evaluación de rendimientos y rentabilidad de los componentes asociados de Swietenia macrophyla (Caoba), Cedrela odorata (Cedro) y Carica papaya (Lechosa), establecidos en ensayos agroforestales en la finca ULA, estación experimental Caparo, EDO. Barinas. Venezuela Rev For Lat 39:85–104

Wade ASI, Asas A, Hadley P, Mason J, Ofori-Frimpong K, Preece D, Spring N, Norris K (2010) Management strategies for maximizing carbon storage and tree species diversity in cocoa-growing landscapes. Agric Ecosyst Environ 138:324–334

Yamada M, Gholz HL (2002) An evaluation of agroforestry systems as a rural development option for the Brazilian Amazon. Agrofor Syst 55:81–87

Zuidema PA, Leffelaar PA, Gerritsma W, Mommer L, Anten NPR (2005) A physiological production model for cocoa (Theobroma cacao): model presentation, validation and application. Agric Syst 84:195–225