Multifunctional shade-tree management in tropical agroforestry landscapes - a review

Tscharntke, Teja; Clough, Yann; Bhagwat, Shonil A.; Buchori, Damayanti; Faust, Heiko; Hertel, Dietrich; Hölscher, Dirk; Juhrbandt, Jana; Kessler, Michael; Perfecto, Ivette; Scherber, Christoph; Schroth, Götz; Veldkamp, Edzo; Wanger, Thomas Cherico

doi:10.1111/j.1365-2664.2010.01939.x

Cited by 624 publications

(559 citation statements)

References 76 publications

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“…Parvin and Shaw (2013) looked at the perception of MFI support for the disaster risk reduction, response, and recovery process, and found that over half of the clients of MFIs saw no change in relation to risk reduction, and income and occupation aspects, while only a minority saw less damage as a result of being a member of an MFI. In their multiyear study on the short-and long-term ecological effects of shade trees in coffee and cacao agroforestry, Tscharntke et al (2011) argue that biodiversity conservation measures aiming to promote sustainable cultivation require economic incentives to be successful. Such a project would also require a clear organizational structure, to mitigate corruption, as well as the involvement of community members in the management process (Seeberg-Elverfeldt, Schwarze, and Faust 2010).…”

Section: Links Between Microfinance Poverty and The Environmentmentioning

confidence: 99%

The role of Islamic microfinance in poverty alleviation and environmental awareness in Pasuruan, East Java, Indonesia

Effendi¹

2013

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Section: Links Between Microfinance Poverty and The Environmentmentioning

confidence: 99%

The role of Islamic microfinance in poverty alleviation and environmental awareness in Pasuruan, East Java, Indonesia

Effendi¹

2013

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“…In coffee production, this socio-ecological transition was extremely serious in environmental terms (Tscharntke et al 2011). In the case of coffee growing in Costa Rica, this transition has been more moderate and concluded already in the 1980s, falling short of the hyperintensive experiences of other countries.…”

Section: Discussionmentioning

confidence: 99%

Energy flows in the coffee plantations of Costa Rica: from traditional to modern systems (1935–2010)

Infante-Amate

Picado

2017

Reg Environ Change

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This article addresses energy flows in the coffee agro-ecosystems of Costa Rica within the context of the socio-ecological transition, between 1935 and 2010, accounting for the shift from traditional to modern tropical agriculture. Estimating indicators of energy efficiency in crop management makes it possible to analyze the changing productive rationality of growers by studying end uses of all biomass appropriated from coffee agro-ecosystems. Coffee land and labor productivity, as expected, multiplied (by factors of 2.01 and 1.56, respectively). However, considering total biomass produced in coffee agro-ecosystems, productivity did not display such a significant increase. In contrast, all other energy efficiency indicators declined. Final energy return on investment (FEROI) fell from 1.02 in 1935 to 0.51 in 2005. External final EROI fell even farther, from 18.90 down to 1.86. The socio-ecological transition brought about the loss of multifunctionality in the final use of products derived from coffee agroecosystems, as new products replaced traditional ones.Keywords Energy return on investment . Coffee . Agroforestry . Energy efficiency . Socio-ecological transition IntroductionThe study of energy flows in farming, understood in a broad sense, represents an effective and versatile way to describe the major changes that have taken place in agrarian systems during the transition from traditional to modern management approaches, as well as to analyze the environmental problems generated in this process. Scholars have used a variety of methods, from traditional energy balances (Leach 1976) to energy return on investment (EROI) (Tello et al. 2016) and life cycle assessment (LCA) (Haas et al. 2000) to analyze energy flows in farming. One aim, from the perspective of environmental and energy sustainability, has been to compare the energy efficiency of traditional and modern systems (Cleveland 1995; or organic vs. conventional management (e.g., Smith et al. 2015). Another approach, from the social sciences and humanities, uses energy flows to study the material foundations and dynamics by which traditional societies were sustained, endeavoring to overcome perspectives that focus exclusively on cultural or monetary concerns. Such studies have assessed hunter-gatherer societies (Rappaport 1969), the collapse of civilizations (Tainter 1990), and the subsistence of peasant farming societies (Infante-Amate 2014).This article evaluates energy flows in Costa Rica's coffee agro-ecosystems within the context of the socio-ecological transition (SET) and the BGreen Revolution,^between 1935 and 2010, spanning both of the aforementioned perspectives within a tropical agricultural system. It estimates indicators about the energy processes of coffee production systems, evaluating its evolving energy efficiency. There is some published research about energy balances in coffee production in Nicaragua (Cuadra and Rydberg 2006), Brazil (Giannetti et al. 2011a, b;Turco et al. 2012;Flauzino et al. 2014;Muner et al. 2015), and Costa ...

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“…Biological species composition, mass balance, and productivity of agroforestry systems are influenced by intensity and distribution of shade (Beer 1987;Rice and Greenberg 2000;Mialet-Serra et al 2001;Siebert 2002;Zuidema et al 2005;Isaac et al 2007). However, the impact of shade trees on cacao crops is discussed controversially as it is not yet evident in which aspects and how strong shade trees favour or hamper cacao crops (Beer 1987;Somarriba and Beer 2011;Tscharntke et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Allometric relationships of frequently used shade tree species in cacao agroforestry systems in Sulawesi, Indonesia

2013

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Shade trees play an important role within agroforestry systems by influencing radiation and wind regimes as well as nutrient and hydrological cycling. However, there is a lack of quantitative assessments of their functions. One of the reasons is the rare information on structural characteristics of shade tree species. Therefore, the aim of this study is to provide basic information on the structure of frequently used shade tree species for the implementation of models simulating the ecosystem processes in agroforestry systems. The investigation of the shade trees was conducted at two cacao agroforestry sites on Sulawesi, Indonesia. The measurements of the main structural parameters: diameter at breast height, tree height, trunk height, crown length and crown radius were carried out for the shade tree species Aleurites moluccana, Cocos nucifera and Gliricidia sepium. For data collection, the National Forest Inventory Field Manual Template by FAO (2004) was applied. Based on this information allometric functions were derived for the correspondent shade tree species. The best significant relationships were obtained for the heightcrown length relationship of the dicotyledonous tree species' A. moluccana and G. sepium with a coefficient of determination r 2 = 0.925 and r 2 = 0.738, respectively, and the height-crown length relationship of the monocotyledonous palm C. nucifera with r 2 = 0.663. The transferability tests 'analysis of covariance' and 'homogeneity of slopes' have shown that the obtained allometric functions are also applicable to other cacao agroforestry systems of the region.

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Multifunctional shade-tree management in tropical agroforestry landscapes - a review

Cited by 624 publications

References 76 publications

The role of Islamic microfinance in poverty alleviation and environmental awareness in Pasuruan, East Java, Indonesia

The role of Islamic microfinance in poverty alleviation and environmental awareness in Pasuruan, East Java, Indonesia

Energy flows in the coffee plantations of Costa Rica: from traditional to modern systems (1935–2010)

Allometric relationships of frequently used shade tree species in cacao agroforestry systems in Sulawesi, Indonesia

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