Origins and genetic conservation of tropical trees in agroforestry systems: a case study from the Peruvian Amazon

An understanding of wood physical properties and the interrelationships that govern them is required for efficient utilization of timber tree species. Guazuma crinita is a fast-growing timber tree of agroforestry systems in the Peruvian Amazon. The aim of this study was to assess variation in wood physical properties within the G. crinita stem. Wood samples were obtained from the base, middle and top of the stem of 12 randomly selected eight-year-old trees from six provenances in order to determine wood moisture content, density, specific gravity, radial, tangential and volumetric shrinkage and the coefficient of anisotropy. Pearson correlations between physical properties were also determined. The highest basic density was 459 kg/m3 from Tournavista provenance. Mean basic density and specific gravity were 430 kg/m3 and 0.45 respectively. There was statistically significant variation (p ≤ 0.05), due to stem level within the trees. The moderate values of density and anisotropy coefficient (1.56) suggest that G. crinita is a stable wood; these are important advantages in terms of costs of the processes of transport and transformation. Given the variation found in the limited tree samples of this study, we recommend further analysis with larger samples from different provenances and planting zones.Variación de las propiedades físicas en troncos de Guazuma crinita, una especie maderable en el Amazonas Peruano El entendimiento de las propiedades físicas de la madera y de las interrelaciones que las gobiernan es necesario para el uso eficiente de las especies maderables. Guazuma crinita es una especie arbórea de rápido crecimiento en sistemas agroforestales del Amazonas peruano. El objetivo de este estudio fue determinar la variación de las propiedades físicas de la madera en el fuste de árboles G. crinita. Las muestras de madera fueron obtenidas de la base, parte media y parte superior del tronco de 12 árboles de ocho años de edad aleatoriamente seleccionados, de seis lugares de procedencia. Con ellas se determinó: contenido de humedad, densidad, densidad relativa, contracciones radial, tangencial y volumétrica y coeficiente de anisotropía; se determinaron también las correlaciones de Pearson entre las propiedades físicas. La densidad básica mayor fue 459 kg/m3, de la procedencia de Tournavista. Las densidades básica y relativa promedio fueron 430 kg/m3 y 0.45, respectivamente. Se encontró variación estadísticamente significativa (p ≤ 0.05) entre alturas en el fuste. La madera moderadamente densa y el coeficiente de anisotropía (1.56) sugieren que G. Crinita es una madera estable, lo que representa importantes ventajas en términos de costos por transporte y proceso de transformación. Debido a la variación encontrada en las limitadas muestras de árboles de este estudio, se recomienda la realización de más análisis con mayores muestras y de diferentes sitios y plantaciones.

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SHORT COMMUNICATION: Do farmers reduce genetic diversity when they domesticate tropical trees? A case study from Amazonia

Molecular Ecology ◽

10.1111/j.1365-294x.2005.02431.x ◽

2005 ◽

Vol 14 (2) ◽

pp. 497-501 ◽

Cited By ~ 54

Author(s):

P. M. HOLLINGSWORTH ◽

I. K. DAWSON ◽

W. P. GOODALL-COPESTAKE ◽

J. E. RICHARDSON ◽

J. C. WEBER ◽

...

Keyword(s):

Genetic Diversity ◽

Short Communication ◽

Tropical Trees

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Case Study Economic Valuation of Family Farming In the Peruvian Amazon in the Present Contexts of Ecological and Social Crisis

Revista Investigación Agraria. ◽

10.47840/reina20206 ◽

2020 ◽

Vol 2 (1) ◽

pp. 50-63

Author(s):

Rider PANDURO-MELENDEZ ◽

Keyword(s):

Economic Valuation ◽

Production Data ◽

Peruvian Amazon ◽

Structured Interviews ◽

Family Farming ◽

Direct Observations ◽

Data Production ◽

San Martín

The present work corresponds to five different case studies of peasant agriculture and of 2 social types: one Amazonian and the other Andean immigrant, located in four different ecological floors. It was carried out in the Pilluana and Three United districts, Picota province, San Martín department, Upper Amazon of Peru. Open and semi-structured interviews were conducted and, direct observations of the various activities that exist in each family property with tours of each of the plots that it has on its properties in order to record in-situ information regarding the diversity they conserve, the uses and destinations of this diversity, concentrating on the value of diversity that is market oriented; it was analyzed on the basis of diversified production data, production volumes, values for each of them, environmental values, and food security and sovereignty; noting their resilience, adaptation and mitigation to the disorders of the contexts that present themselves. Keywords. Economic Valuation, Family Farming, In situ, Diversity, Marke

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The Improved Canopy Shading Model Based on the Apple Intercropping System (Case Study: Loess Plateau, China)

Sustainability ◽

10.3390/su10103486 ◽

2018 ◽

Vol 10 (10) ◽

pp. 3486

Author(s):

Jingjing Wang ◽

Huaxing Bi ◽

Yubo Sun ◽

Hangqi Duan ◽

Ruidong Peng

Keyword(s):

Apple Tree ◽

Temporal Distribution ◽

Agroforestry Systems ◽

Measured Data ◽

Apple Trees ◽

Simulation Accuracy ◽

Actual Measurement ◽

Similarity Principle ◽

Improved Model

The canopy shading model is widely used in agroforestry systems. However, the canopy shading model cannot be verified by the measured shading distribution of an apple tree due to the uneven ground and adjacent apple trees. This paper measures the spatial‒temporal distribution of the shading of apple trees based on the similarity principle of parallel solar light combined with 3D printing technology to improve the canopy shading model. The following results are drawn: (1) The current widely used canopy shading model does not consider the effect of the canopy penumbra, resulting in poor simulation accuracy in the shading distribution compared to the actual measurement; (2) The effect of canopy penumbra causes the deflection of sunlight. Hence, the paper presents the deflection equation of sunlight with statistically defined parameters derived using measured data of the shading distribution. The deflection equation of sunlight is added to the improved canopy shading model. The improved model can accurately simulate the shading distribution of an apple tree, and the simulation accuracy exceeds 94.12% when compared with the shading distribution of an apple tree; (3) The improved canopy shading model is applied to simulate the spatial‒temporal distribution of the shading of apple trees in a conventional arrangement (4 m × 5 m), and the simulation accuracy exceeds 89%. Thus, the improved canopy shading model can be applied to simulate the spatial‒temporal distribution of shading of apple trees.

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