Revista de Biología Tropical ISSN Impreso: 0034-7744 ISSN electrónico: 2215-2075

OAI: https://revistas.ucr.ac.cr/index.php/rbt/oai
Architectural and morphological variation of Hintonia latiflora (Rubiaceae) in relation to bark harvest and environmental factors.
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Keywords

commercial harvesting
medicinal bark
plant morphometric
plant architecture
tropical deciduous forest.
arquitectura vegetal
bosque tropical caducifolio
corteza medicinal
cosecha comercial
variación morfométrica.

How to Cite

Beltrán-Rodríguez, L., Romero-Manzanares, A., Luna-Cavazos, M., & García-Moya, E. (2017). Architectural and morphological variation of Hintonia latiflora (Rubiaceae) in relation to bark harvest and environmental factors. Revista De Biología Tropical, 65(3), 900–916. https://doi.org/10.15517/rbt.v65i3.29444

Abstract

Hintonia latiflora is a rare ecologically and economically important species from the Tropical Deciduous Forest of the Balsas Basin, Mexico, whose bark is traded as medicinal. Debarking practices have modified the shape of plants, their architecture and morphometry; but it is unknown if some topographic and edaphic factors may also influence in these attributes. Here we propose that the ecological conditions of this species distribution and harvesting areas, may determine the morphometric characteristics and the individuals variation in their architecture. To test this hypothesis we assessed the relationship of topographic and edaphic factors on the morphological characteristics of saplings (n = 143) and adults (n = 117), in eight harvesting areas of H. latiflora. The harvesting areas, with a surface of 0.6 ha, were selected randomly with the support of participatory mapping elaborated by gatherers of the study site. Data were analyzed using principal components (PCA) and canonical correspondence (CCA) analyses. The first three PC explained 92.1 % of the morphological variation; height, basal diameter, and coverage, explained morphometric differences in both, saplings and adults, in all eight harvesting zones. The terrain slope, slope orientation, soil depth and stoniness, were ecological factors statistically related with morphometric differences. A lower terrain slope, little stoniness, soil depth, slope orientation E-W in saplings (azimuth 90˚-270˚) and N-S in adults (azimuth 0˚-180˚) were the factors associated to height, number of basal branches, basal diameter and coverage of H. latiflora. Areas with higher harvesting intensity were composed by monopodic trees and some reiterated basitone individuals; the adults of these areas also had more fruits. At these sites, plants of H.latiflora were more abundant and produced more bark, but the high-intensity of harvesting, changes plant architecture, forming shrubby, multi-stemmed individuals, that originally were mesotone trees. Areas with lower harvesting intensity were characterized by steep slopes, shallow and rocky soils, and were dominated by basitone trees of smaller size, thin and scarce in the area. These sites are the least recommended for harvesting, because they produce less bark per tree, and serve to preserve the species at the site. Based on these results, we can develop restoration programs in areas affected by commercial harvesting, establish forestry plantations in key sites to ensure the establishment and development of individuals with desirable characteristics for bark harvesting and contribute to in situ conservation of H. latiflora in the Alto Balsas Basin.

 

https://doi.org/10.15517/rbt.v65i3.29444
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References

Alexiades, M. & Shanley, P. (2004). Productos Forestales, Medios de Subsistencia y Conservación. Estudios de Caso sobre Sistemas de Manejo y Productos Forestales No Maderables. Volumen 3-América Latina. (1st ed.). Indonesia: Centro para la Investigación Forestal Internacional (CIFOR).

Auslander, M., Nevo, E., & Inbar, M. (2003). The effects of slope orientation on plant growth, developmental instability and susceptibility to herbivores. Journal of Arid Environments, 55(3), 405-416.

Barthélémy, D., & Caraglio, Y. (2007). Plant architecture: a dynamic, multilevel and comprehensive approach to plant form, structure and ontogeny. Annals of Botany, 99, 375-407.

Becker, P., Rabenold, P., Idol, J., & Smith, A. (1988). Water potential gradients for gaps and slopes in a Panamanian tropical moist forest's dry season. Journal of Tropical Ecology, 4(2), 173-184.

Beltrán-Rodríguez, L., Romero-Manzanares, A., Luna-Cavazos, M., Vibrans, H., Manzo-Ramos, F., Cuevas-Sánchez, J., & García-Moya, E. (2015). Historia natural y cosecha de corteza de quina amarilla Hintonia latiflora (Rubiaceae). Botanical Sciences, 93(2), 1-12.

Belloni, I., Benedetti, I., & Scariot, A. (2007). Ethnobotany and effects of harvesting on the population ecology of Syngonanthus nitens (Bong.) Ruhland (Eriocaulaceae), a NTFP from Jalapao Region, Central Brazil. Economic Botany, 6(1), 73-85.

Botha, J., Witkowski, E., & Shackleton, C. (2004). The impact of commercial harvesting on Warburgia salutaris (“pepper-bark tree”) in Mpumalanga, South Africa. Biodiversity and Conservation, 13, 1675-1698.

Bruschi, P., Vendramin, G., Bussotti, F., & Grossoni, P. (2003). Morphological and molecular diversity among Italian populations of Quercus petraea (Fagaceae). Annals of Botany, 91(6), 707-716.

Chauvel, A., Lucas, Y., & Boulet, R. (1987). On the genesis of the soil mantle of the region of Manaus, Central Amazonia, Brazil. Experientia, 43(3), 234-241.

Cuevas-Guzmán, R., García-Moya, E., Vázquez-García, J., & Núñez-López, N. (2008). Estructura poblacional y relaciones ambientales del árbol tropical Nectandra rudis (Lauraceae), una especie rara en el occidente de México. Revista Biología Tropical, 56(1), 247-256.

Cunningham, A., Campbell, B., & Luckert, M. (2014). Bark. Use, Management, and Commerce in Africa. Advances in Economic Botany, 17, 1-288.

Di Rienzo, J., Casanoves, F., Balzarini, M., Gonzalez, L., Tablada, M., & Robledo, C. (2013). InfoStat (Versión 2013). Grupo InfoStat, FCA, Universidad Nacional de Córdoba, Argentina.

Gaoue, O., & Ticktin, T. (2008). Impacts of bark and foliage Harvest on Khaya senegalensis (Meliaceae) reproductive performance in Benin. Journal of Applied Ecology, 45, 34-40.

García, E. (1988). Modificaciones al sistema de clasificación climática de Köppen (para adaptarlo a las condiciones de la República Mexicana) (2nd ed.). México: Universidad Nacional Autónoma de México, Instituto de Geografía.

González, O., & Zak, D. (1996). Tropical dry forest of St. Lucia, West Indies: Vegetation and soil properties. Biotropica, 28, 618-626.

Guedje, N., Zuidema, P., During, H., Foahom, B., & Lejoly, J. (2007). Tree bark as a non-timber forest product: The effect of bark collection on population structure and dynamics of garcinia lucida Vesque. Forest Ecology and management, 240, 1-12.

Hallé, F. (2010). Arquitectura de los Árboles. Boletín de la Sociedad Argentina de Botánica, 45(3-4), 405-418.

Hallé, F., Oldemann, R. A. A., & Tomlinson, P. (1978). Tropical trees and forest: an architectural analysis. Berlin: Springer-Verlag.

Hernández-Apolinar, M., Valverde, T., & Purata, S. (2006). Demography of Bursera glabrifolia, a tropical tree used for folk woodcrafting in Southern Mexico: An evaluation of its management plan. Forest Ecology and Management, 223(1), 139-151.

Hersch-Martínez, P. (2007). La industrialización químico-farmacéutica mexicana y la flora: el caso de los Laboratorios Garcol. Boletín de la Sociedad Química de México, 1, 107-114.

Hersch-Martínez, P. & Fierro, A. (2001). El comercio de plantas medicinales: algunos rasgos significativos en el centro de México. In B. Rendón, S. Rebollar, J. Caballero, & M. Martínez-Alfaro, Plantas, Cultura y Sociedad. Estudio sobre la relación entre los seres humanos y las plantas de los albores del siglo XXI (1st ed., pp. 53-75). Mexico City: UAM, SEMARNAT.

Hersch-Martínez, P., Fierro, A., Guerrero, C., & Pérez, A. (2000). Tendencias en la progresión de la colecta de algunas especies medicinales silvestres de relevancia comercial en la colindancia de Puebla y Guerrero, México. In R. Monroy, H. Colín, & C. Boyas, Los sistemas agroforestales de Latinoamérica y la selva baja caducifolia en México (1st ed., pp. 573-580). Cuernavaca, Morelos: IICA, INIFAP, UAEMor.

Huai, H., Wen, G., Xu, W., & Bai, W. (2013). Effects of commercial harvesting on population characteristics and rhizome yield of Anemone altaica. Economic Botany, 67(1), 41-50.

Huante, P., Rincón, E., & Acosta, I. (1995). Nutrient availability and growth rate of 34 woody species from a tropical deciduous forest in Mexico. Functional Ecology, 9, 849-858.

INEGI. (2009). Prontuario de información geográfica municipal de los Estados Unidos Mexicanos. Copalillo, Guerrero, México.

Interián-Ku, V., Valdez-Hernández, J., García-Moya, E., Romero-Manzanares, A., Borja, M., & Vaquera-Huerta, H. (2009). Arquitectura y morfometría de dos especies arbóreas en una selva baja caducifolia del sur de Yucatán, México. Boletín de la Sociedad Botánica de México, 85, 17-29.

López-Gómez, V., Zedillo-Avelleyra, P., Anaya-Hong, S., González-Lozada, E., & Cano-Santana, Z. (2012). Efecto de la orientación de la ladera sobre la estructura poblacional y ecomorfología de Neobuxbaumia tetetzo (Cactaceae). Botanical Sciences, 90, 453-457.

Lorence, D., & Taylor, C. (2011). Rubiaceae. Flora Mesoamericana, 4, 230-232.

Martínez-Sánchez, J., Meave, J., & Bongers, F. (2008). Light-related variation in sapling architecture of three shade-tolerant tree species of the Mexican rain forest. Revista Chilena de Historia Natural, 81, 361-371.

Mata, R., Navarrete, A., Cristians, S., Hersch-Martínez, P., & Bye, R. (2009). Plantas Medicinales de México. Monografía Científica. Pruebas de Control de Calidad (Identificación y Composición), Eficacia y Seguridad. Copalchi - Hintonia latiflora (Sessé et Mociño ex DC.) Bullock (Rubiaceae) (1ª. ed.). D.F., México: Sentido Giratorio Ediciones.

McCune, B., & Mefford, M. (2011). PC-ORD. Multivariate analysis of ecological data (Version 6). Gleneden Beach, Oregon, U.S.A.: MjM Software Design.

Ochoterena, H. (2000). Systematics of Hintonia Bullock and the Portlandia complex (Rubiaceae). (PhD dissertation). Cornell University, Ithaca, N.Y., USA.

Oke, T. (1987). Boundary Layer Climates (2nd ed.). Taylor & Francis, Routledge.

Ouinsavi, C., & Sokpon, N. (2010). Morphological variation and ecological structure of Iroko (Milicia excelsa Welw. CC Berg) populations across different biogeographical zones in Benin. International Journal of Forestry Research, 10, 1-10.

Pearcy, R., Muraoka, H., & Valladares, F. (2005). Crown architecture in sun and shade environments: assessing function and trade-offs with a three-dimensional simulation model. New Phytologist, 166(3), 791-800.

Pineda-Herrera, E., Valdez-Hernández, J., López-López, M., Salgado-Ugarte, I., & Manzano-Méndez, F. (2011). Arquitectura de dos especies arbóreas de una Selva Alta Perennifolia de Oaxaca. In A. Endara-Agramont, A. Mora-Santacruz, & J. Valdez-Hernández, Bosques y Árboles del Trópico Mexicano: Estructura, Crecimiento y Usos. (1 st ed., pp. 23-36). Jalisco, México: Universidad de Guadalajara. CUCBA.

Poorter, L., Bongers, L., & Bongers, F. (2006). Architecture of 54 moist-forest tree species: traits, trade-offs, and functional groups. Ecology, 87(5), 1289-1301.

Poorter, L., Jans, L., Bongers, F., & Van Rompaey, R. (1994). Spatial distribution of gaps along three catenas in the moist forest of Tai National Park, Ivory Coast. Journal of Tropical Ecology, 10(03), 385-398.

Rendón-Carmona, H., Martínez-Yrízar, A., Balvanera, P., & Pérez-Salicrup, D. (2009). Selective cutting of woody species in a Mexican tropical dry forest: Incompatibility between use and conservation. Forest Ecology and Management, 257(2), 567-579.

Romero-Méndez, U., López-Corrujedo, H., García-de la Peña, C., & Estrada-Rodríguez, J. (2013).Variación ecomorfológica de Astrophytum myriostigma (Caryophylalles: Cactaceae) en una población de la sierra El Sarnoso, Durango, México. Revista Chilena de Historia Natural, 86, 357-364.

Stanley, E., Voeks, R., & Short, L. (2012). Is non-timber forest product harvest sustainable in the less developed world? A Systematic Review of the Recent Economic and Ecological Literature. Ethnobiology and Conservation, 1(9), 1-39.

Trejo, I. (1983). Estudio de Vegetación en la Zona de Tlalcozotitlán en la Depresión Oriental del Rio Balsas, Gro (Tesis de Maestría). Universidad Nacional Autónoma de México, Mexico.

van Andel, T., & Havinga, R. (2008). Sustainability aspects of commercial medicinal plant harvesting in Suriname. Forest Ecology and Management, 256, 1540-1545

Velázquez, R., Cházaro, M., González, R., & Covarrubias, H. (2011). Árboles de las Barrancas de los ríos Santiago y Verde (1ª. ed.). Jalisco, México: Comisión Estatal del Agua de Jalisco.

Vester, H. F. M. (2002). Modelos arquitectónicos en la flora arbórea de Yucatán. Boletín de la Sociedad Botánica de México, 71, 45-57.

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