desarrollo sostenible de paisajes rurales colombianos: Complejo Ecorregional Andes del Norte” (contract RC No. 433 -2004) fulfilled by CIEBREG. Also thanks go to the Technological University of Pereira for financing <strong>and</strong> supporting the development of this investigation. Finally, we want to express our gratitude to the owners of farms for permitting us to work in their properties. <strong>VIII</strong> World Bamboo Congress Proceedings Vol 4-53
References Arbeláez, A.C. 1996. Relación entre los caracteres morfológicos del tallo de la guadua (Guadua angustifolia Kunth) Medellín: Universidad Nacional de Colombia. 21p. Agudelo, B., Toro, I. 1994. Evaluación del desarrollo de los bosques de Guadua angustifolia en la zona de jurisdicción de la C.V.C, bajo diferentes condiciones de sitio, con fines de reforestación. Tesis, Universidad del Tolima. Ibagué. 168p Brown, S. 1997. Los bosques y el cambio climático: El papel de los terrenos forestales como sumideros de carbono. Bosques y cambio climático y la función de los bosques como sumideros de carbono. En: XI Congreso Forestal Mundial. Antalya, Turquía Camargo, J.C. 2006. Growth <strong>and</strong> productivity of the bamboo species Guadua angustifolia Kunth in the coffee region of Colombia. Cuvillier Verlag, Göttingen, Germany. 207pp Camargo, J.C. 2004. Silvicultura y productividad de la Guadua angustifolia en la zona cafetera de Colombia. In: Proceedings International Symposium Guadua 2004. Pereira, Colombia. Camargo, J.C., García, J.H., Morales, T. 2008. Bases para la planificación y manejo silvicultural de bosques de Guadua: Una aplicación a nivel de finca en la zona cafetera de Colombia. Universidad Tecnológica de Pereira. COLCIENCIAS. Grupo en Gestión de Agroecosistemas Tropicales Andinos. POSTEGRAPH. Pereira. 86p. Camargo, J.C., Dossman, M.A., Cardona, G., García, J.H., Arias, L.M. 2007. Zonificación detallada del recurso guadua en el Eje Cafetero, Tolima y Valle del Cauca: Municipios piloto del proyecto Manejo Sostenible de Bosques en Colombia (Guía metodológica y resultados). Ministerio de Ambiente Vivienda y Desarrollo Territorial, Universidad Tecnológica de Pereira, Corporaciones Autónomas Regionales del Tolima, Quindío, Valle del Cauca y Risaralda. Pereira, Colombia. Camargo, J.C. Cardona, G. 2005. Análisis de fragmentos de bosque y guaduales. Enfoques silvopastoriles integrados para el manejo de ecosistemas. CIPAV-CATIE-World Bank-GEF-LEAD. Unpublished project report. Pereira, Colombia. 38p. Camargo, J.C., Ríos, A., Valencia, M.Y. 2001. Estimación de áreas bajo <strong>and</strong>isoles y sus características físicas, químicas y mineralógicas en Risaralda y Quindío. En: Suelos del eje cafetero. Proyecto UTP-GTZ. 199p. CARDER 2000. Perspectivas regionales del cultivo de la guadua. Memorias Seminario la Guadua como Alternativa Económica. Pereira CARDER, Gobernación de Risaralda, Comité de Cafeteros. Castaño, F. 2001.Definición técnica de un régimen de aprovechamiento de bosques de guadua (Guadua angustifolia Kunth) y su incidencia en la sostenibilidad, sanidad y rentabilidad del recurso. Experiencias en la provincia del Valle del Cauca, Colombia y provincia de Guayaquil, Ecuador. Corporación Autónoma Regional del Valle del Cauca-CVC. Agencia Internacional para el Desarrollo-AID-INFORDE. Castaño, F., Moreno, R.D. 2004. Guadua para todos. Cultivo y Aprovechamiento. Bogotá: Beatriz Peña. Proyecto Manejo Sostenible de Bosques de Colombia.190p. Cruz, H. 1994. La Guadua nuestro bambú. Corporación Autónoma Regional del Quindío y Centro Nacional para el Estudio del Bambú y la Guadua. Armenia, Quindío. Colombia. 293p. Deuchars, S.A., Townend, J., Aitkenhead, M.J. & FitzPatrick1, E.A. 1999. Changes in soil structure <strong>and</strong> hydraulic properties in regenerating rain forest. Soil Use <strong>and</strong> Management (15): 183-187. Douglas, J.T., Jarvis, M.G., Howse, K.R. & Goss, M.J. 1986. Structure of silty soil in relation to management. Journal of Soil Science 37, 137-151. Fassbender, H.W. 1986. Química de suelos con énfasis en suelos de América Latina. Instituto Interamericano de Cooperación para la Agricultura. 400 pp. San José. Costa Rica. <strong>VIII</strong> World Bamboo Congress Proceedings Vol 4-54
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VOLUME 4 Resources - Forestry, Plan
- Page 3 and 4: Planning, Designing and Implementin
- Page 5 and 6: As indicated earlier, the major ind
- Page 7 and 8: Soil : Most bamboos are found in sa
- Page 9 and 10: Financial aspects: Unit cost- The u
- Page 11 and 12: Repayment period The bank loan was
- Page 13 and 14: promoting new bamboo projects throu
- Page 15 and 16: Planning Commission, 2003. Report o
- Page 17 and 18: hectares; bamboo (both natural and
- Page 19 and 20: internode length, height, girth, st
- Page 21 and 22: Seeds Availability of seed is limit
- Page 23 and 24: Oxytenanthera stocksii Pleoblastus
- Page 25 and 26: References Anon. 1997. Compendium o
- Page 27 and 28: inventory of harvestable volume and
- Page 29 and 30: Some climbing bamboos are presently
- Page 31 and 32: Research breakthroughs The pioneer
- Page 33 and 34: A = 20 mm C = 10 mm Scale: 1-10 mm
- Page 35 and 36: Abstract Integrated Management of B
- Page 37 and 38: In the other hand, guadua bamboo fo
- Page 39 and 40: For bamboo species, models for pred
- Page 41 and 42: showed higher coefficient of determ
- Page 43 and 44: 30 cm above ground level and closel
- Page 45 and 46: . Cumls per clump 40 35 30 25 20 15
- Page 47 and 48: Figure 11. Capability of land for g
- Page 49 and 50: productivity (Camargo et al. 2007).
- Page 51 and 52: esidues (Deuchars et al. 1999). Soi
- Page 53: Conclusions and recommendations For
- Page 57 and 58: Orrego, S.A. ,Del Valle, J.I. 2001.
- Page 59 and 60: shoot earlier in the winter. Hence,
- Page 61 and 62: Results and Discussion Effects of B
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- Page 65 and 66: Panting time Table 1. Soil properti
- Page 67 and 68: Exchangeabl e Al ( mg kg -1 ) 300 2
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- Page 71 and 72: aboveground and belowground competi
- Page 73 and 74: Shoot harvests represent a smaller
- Page 75 and 76: Culm thinning practice The intensit
- Page 77 and 78: the withholding of fertiliser reduc
- Page 79 and 80: References Castaneda-Mendoza A.; Va
- Page 81 and 82: Tree yield (t ha -1 ) 200 (a) 150 1
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- Page 93 and 94: Table 1: Linear relationship betwee
- Page 95 and 96: References Agarwal, A.; Khokhar, D.
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- Page 99 and 100: in northern Sudan stretches from ea
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- Page 103 and 104: References Andrews, J. 1950. The fl
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Figure 2. The Studied Bamboo Forest
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Figure 1: A not maintained bamboo f
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amboo forests are not maintained. I
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NPO Kitakyushu Biotope Network Grou
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In the area around the Kitakyushu S
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Number of participants The bamboo f
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Abstract Performance of Exotic Bamb
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The trial sites of Kakamega and Mug
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determining culm weight is by physi
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Table 5: Performance of Cephalostac
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For instance, Table 12 shows that,
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Species to Site Matching Table 16:
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Table 18: General Ranking of Specie
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Table 20: General Ranking of Specie
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Table 22: Relative Yield Performanc
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Table 24: Species per Site - Benchm
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altitude but has excellent growing
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NEMA, (2004). State of the Environm
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Research Site and Method Research i
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Discussion As of the research in 19
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Table 2. Change of density and occu
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Figure 1. Distribution of diameter
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2 Figure 3. Distribution of diamete