Evaluation of Unmanned Aerial Vehicles (UAV) as a Tool to Predict Biomass and Carbon of Tectona grandis in Silvopastoral Systems (SPS) in Costa Rica

Hernández-Cole, Javier; Ortíz-Malavassi, Edgar; Moya, Róger; Murillo-Gamboa, Olmán

doi:10.3390/drones5020047

Cited by 4 publications

(7 citation statements)

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“…In the past, only a few studies explored the use of UASs for the study of tree characteristics in livestock landscapes [29,30]. In this paper, a new methodology is proposed for using UAS surveys for the assessment of woody vegetation in silvopastoral systems.…”

Section: Discussionmentioning

confidence: 99%

“…Their findings suggest that it is possible to rely only on UAS-DTM-independent metrics to estimate ground-stand volume, with RMSE values similar to those obtained when using a high-resolution DTM. Site conditions, such as terrain slope and tree cover, have an influence on point-cloud-classification performance, although the authors of [30] suggest that tree coverage is more important for accurate DTM creation. In this study, three of the four plots that had a RMSE between 1.14 and 2.5 m (≥10% relative RMSE) were located in areas with a slope of between 20 and 29 • .…”

Section: Tree Parameters and Biomass Estimationmentioning

confidence: 99%

“…Hence, the crown-DBH relationship was altered, which may have exerted an impact on the final biomass estimates. For example, the authors of [30] reported a low R2 for equations using crown diameter as a predictor of DBH on Tectona grandis trees in SPS in Costa Rica. Although biomass estimates present differences in comparison to biomass estimates derived from field measurements, by assessing the error magnitude, these estimates can be useful for reporting carbon stocks in SPS at larger spatial extents.…”

Section: Tree Parameters and Biomass Estimationmentioning

confidence: 99%

“…Although LiDAR and NIR sensors provide a broader range of information with which to assess forest canopy characteristics, the development of open-source photogrammetry software and algorithms in recent years has made it possible to extract information from RGB sensors to assess forest characteristics (such as tree height and crown diameter), with results similar to those obtained from LiDAR surveys [23], with considerably lower costs. Several studies using UASs to assess forest characteristics have been published [24][25][26][27][28], but few have focused on the potential for studying SPS [29,30]. The use of photogrammetry to assess tree characteristics on SPS follows the same principles as in forested areas.…”

Section: Introductionmentioning

confidence: 99%

“…The main difference between forest and pasture-dominated areas is the extent of the canopy gaps, which, by definition, are considerably larger in pasture areas, thus improving ground-truth detection and digital-terrain-model (DTM) creation using structure-from-motion (SfM) workflows [27]. The accuracy of tree-characteristics estimates depends on terrain conditions, and remains a challenge in areas with steep slopes [31]; however, even in even terrain, the accuracy depends on the tree stands' density and the methods used to calculate their characteristics [30].…”

Section: Introductionmentioning

confidence: 99%

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Use of Unoccupied Aerial Systems to Characterize Woody Vegetation across Silvopastoral Systems in Ecuador

et al. 2022

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The trees in pastures are recognized for the benefits they provide to livestock, farmers, and the environment; nevertheless, their study has been restricted to small areas, making it difficult to upscale this information to national levels. For tropical developing countries, it is particularly important to understand the contribution of these systems to national carbon budgets. However, the costs associated with performing field measurements might limit the acquisition of this information. The use of unoccupied aerial systems (UAS) for ecological surveys has proved useful for collecting information at larger scales and with significantly lower costs. This study proposes a methodology that integrates field and UAS surveys to study trees on pasture areas across different terrain conditions. Our overall objective was to test the suitability of UAS surveys to the estimation of aboveground biomass (AGB), relying mainly on open-source software. The tree heights and crown diameters were measured on 0.1-hectare circular plots installed on pasture areas on livestock farms in the Amazon and Coastal regions in Ecuador. An UAS survey was performed on 1-hectare plots containing the circular plots. Field measurements were compared against canopy-height model values and biomass estimates using the two sources of information. Our results demonstrate that UAS surveys can be useful for identifying tree spatial arrangements and provide good estimates of tree height (RMSE values ranged from 0.01 to 3.53 m), crown diameter (RMSE values ranged from 0.04 to 4.47 m), and tree density (density differences ranging from 21.5 to 64.3%), which have a direct impact on biomass estimates. The differences in biomass estimates between the UAS and the field-measured values ranged from 25 to 75%, depending on site characteristics, such as slope and tree coverage. The results suggest that UASs are reliable and feasible tools with which to study tree characteristics on pastures, covering larger areas than field methods only.

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Section: Discussionmentioning

confidence: 99%

Section: Tree Parameters and Biomass Estimationmentioning

confidence: 99%

Section: Tree Parameters and Biomass Estimationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Use of Unoccupied Aerial Systems to Characterize Woody Vegetation across Silvopastoral Systems in Ecuador

et al. 2022

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Integration of Unmanned Aerial Vehicle Spectral and Textural Features for Accurate Above-Ground Biomass Estimation in Cotton

Chen,

Yin,

Lin

et al. 2024

Agronomy

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Timely and accurate estimation of Above-Ground-Biomass (AGB) in cotton is essential for precise production monitoring. The study was conducted in Shaya County, Aksu Region, Xinjiang, China. It employed an unmanned aerial vehicle (UAV) as a low-altitude monitoring platform to capture multispectral images of the cotton canopy. Subsequently, spectral features and textural features were extracted, and feature selection was conducted using Pearson’s correlation (P), Principal Component Analysis (PCA), Multivariate Stepwise Regression (MSR), and the ReliefF algorithm (RfF), combined with the machine learning algorithm to construct an estimation model of cotton AGB. The results indicate a high consistency between the mean (MEA) and the corresponding spectral bands in textural features with the AGB correlation. Moreover, spectral and textural feature fusion proved to be more stable than models utilizing single spectral features or textural features alone. Both the RfF algorithm and ANN model demonstrated optimization effects on features, and their combination effectively reduced the data redundancy while improving the model performance. The RfF-ANN-AGB model constructed based on the spectral and textural features fusion worked better, and using the features SIPI2, RESR, G_COR, and RE_DIS, exhibited the best performance, achieving a test sets R2 of 0.86, RMSE of 0.23 kg·m−2, MAE of 0.16 kg·m−2, and nRMSE of 0.39. The findings offer a comprehensive modeling strategy for the precise and rapid estimation of cotton AGB.

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UAV Image-Based Crop Growth Analysis of 3D-Reconstructed Crop Canopies

Neilsen

Duddu

Bett

et al. 2022

Plants

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Plant growth rate is an essential phenotypic parameter for quantifying potential crop productivity. Under field conditions, manual measurement of plant growth rate is less accurate in most cases. Image-based high-throughput platforms offer great potential for rapid, non-destructive, and objective estimation of plant growth parameters. The aim of this study was to assess the potential for quantifying plant growth rate using UAV-based (unoccupied aerial vehicle) imagery collected multiple times throughout the growing season. In this study, six diverse lines of lentils were grown in three replicates of 1 m2 microplots with six biomass collection time-points throughout the growing season over five site-years. Aerial imagery was collected simultaneously with each manual measurement of the above-ground biomass time-point and was used to produce two-dimensional orthomosaics and three-dimensional point clouds. Non-linear logistic models were fit to multiple data collection points throughout the growing season. Overall, remotely detected vegetation area and crop volume were found to produce trends comparable to the accumulation of dry weight biomass throughout the growing season. The growth rate and G50 (days to 50% of maximum growth) parameters of the model effectively quantified lentil growth rate indicating significant potential for image-based tools to be used in plant breeding programs. Comparing image-based groundcover and vegetation volume estimates with manually measured above-ground biomass suggested strong correlations. Vegetation area measured from a UAV has utility in quantifying lentil biomass and is indicative of leaf area early in the growing season. For mid- to late-season biomass estimation, plot volume was determined to be a better estimator. Apart from traditional traits, the estimation and analysis of plant parameters not typically collected in traditional breeding programs are possible with image-based methods, and this can create new opportunities to improve breeding efficiency mainly by offering new phenotypes and affecting selection intensity.

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Evaluation of Unmanned Aerial Vehicles (UAV) as a Tool to Predict Biomass and Carbon of Tectona grandis in Silvopastoral Systems (SPS) in Costa Rica

Cited by 4 publications

References 58 publications

Use of Unoccupied Aerial Systems to Characterize Woody Vegetation across Silvopastoral Systems in Ecuador

Use of Unoccupied Aerial Systems to Characterize Woody Vegetation across Silvopastoral Systems in Ecuador

Integration of Unmanned Aerial Vehicle Spectral and Textural Features for Accurate Above-Ground Biomass Estimation in Cotton

UAV Image-Based Crop Growth Analysis of 3D-Reconstructed Crop Canopies

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