Your search keyword '"Carlos Alberto Silva, University of Maryland, Geographical Sciences Department, USA"' showing total 1 results

1. Evaluating tropical forest classification and field sampling stratification from lidar to reduce effort and enable landscape monitoring

Author

M. V. N. d' Oliveira, Danilo Roberti Alves de Almeida, Evandro Orfanó Figueiredo, Luiz Carlos Estraviz Rodriguez, Ruben Valbuena, Scott C. Stark, Daniel de Almeida Papa, Carlos A. Silva, DANIEL DE ALMEIDA PAPA, CPAF-AC, Danilo Roberti Alves de Almeida, ESALQ/USP, Carlos Alberto Silva, University of Maryland, Geographical Sciences Department, USA, EVANDRO ORFANO FIGUEIREDO, CPAF-AC, Scott C. Stark, Michigan State University, East Lansing, MI, USA, Ruben Valbuena, Bangor University, School of Natural Sciences, United Kingdom, Luiz Carlos Estraviz Rodriguez, ESALQ/USP, and MARCUS VINICIO NEVES D OLIVEIRA, CPAF-AC.

Subjects

0106 biological sciences, Tropical forests, Estrutura Vegetal, 01 natural sciences, Análisis estadístico, Basal area, Field forest inventory, Floresta Tropical, Forest plot, Espacios vacíos en el dosel, Campo Experimental, Raio Laser, Lidar, Análise Estatística, Forest management, Inventário Florestal, Forestry, Índice de área foliar, Remote sensing, Simple random sample, Análisis de conglomerados, Statistical analysis, Leaf area index, Amostragem de campo, Sensoriamento Remoto, Rugosity, Cubierta forestal, Stratification (vegetation), Management, Monitoring, Policy and Law, População de Planta, Características de plantas, 010603 evolutionary biology, Acre, Rio Branco (AC), Cluster analysis, Canopy gaps, Nature and Landscape Conservation, Forest inventory, Manejo florestal, Filed sampling, TECNOLOGIA LIDAR, Forest canopy, Administração Florestal, Amazonia Occidental, Environmental science, Embrapa Acre, Amostragem, Plant characteristics, Amazônia Ocidental, Western Amazon, 010606 plant biology & botany

Abstract

In high biodiversity areas, such as the Amazon, forest inventory is a challenge due to large variations in vegetation structure and inaccessibility. Capturing the full gradient of variability requires the acquisition of a large number of sample plots. Pre-stratified inventory is an efficient strategy that reduces sampling effort and cost. Low-cost remote sensing techniques may significantly expand pre-stratification capacity; however, the simplest option, satellite optical imagery, cannot detect small variations in primary forests. Alternatively, three-dimensional information obtained from airborne laser scanning (ALS, a.k.a. airborne lidar) has been successfully used to estimate structural parameters in tropical forests. Our objective was to assess to what extent forest plot sampling effort could be reduced, while accurately estimating mean vegetation characteristics in the landscape, by stratifying with ALS structural properties, relative to a random, uniformed conventional approach. The study was developed in an 800-ha area of wet Amazonian forest (Acre, Brazil), including portions of palms, bamboo and dense forest. We estimated relevant structural attributes from ALS: canopy height, openness, rugosity and fractions of leaf area index (LAI) along the vertical profile. We clustered vegetation to define heterogeneity into structural types, employing the Ward method and Euclidean distance. Also, principal component analysis was employed to characterize the groups using field and ALS-derived structural attributes. We simulated sampling intensities to estimate the gain in reducing the field efforts based on pre-stratified and non-stratified forest inventory scenarios. The resulting stratification clearly distinguished the forest?s structural variation gradient and the vegetation density profile. For a fixed uncertainty of 10% in basal area estimation, the ALS-aided stratified inventory reduced the necessary number of field plots by 41%, relative to simple random sampling. The resulting reduction in sampling effort can offset the cost of ALS data collection, significantly enhancing its financial feasibility. In addition, ALS provides broad-coverage quantifications of basal area (or aboveground carbon stock), canopy structure, and accurate terrain characterization, which have an added value for forest management. Made available in DSpace on 2019-11-26T18:10:07Z (GMT). No. of bitstreams: 1 26910.pdf: 2646815 bytes, checksum: 03266a4041ee93c762db333f5828420b (MD5) Previous issue date: 2019

Published

2020