Your search keyword '"Silva López, Jhonsy O."' showing total 10 results

1. Optimizing Landfill Site Selection Using Fuzzy-AHP and GIS for Sustainable Urban Planning.

Author

Zabaleta Santisteban, Jhon Antony, López, Rolando Salas, Rojas-Briceño, Nilton B., Fernández, Darwin Gómez, Medina Medina, Angel J., Tuesta Trauco, Katerin M., Rivera Fernandez, Abner S., Crisóstomo, José Lévano, Oliva-Cruz, Manuel, and Silva-López, Jhonsy O.

Subjects

GEOGRAPHIC information systems, WASTE management, SOLID waste, POPULATION forecasting, URBAN planning

Abstract

Careful landfill selection with minimal environmental impact is vital for urban planners. This study aims to identify suitable sites for controlled landfills using Fuzzy-AHP integrated with Remote Sensing and GIS, considering a 20-year projection of population and solid waste generation. Initially, twelve sub-criteria were identified, grouped into environmental, socioeconomic, and physical categories, and then weighted using paired comparison matrices involving nine experts. The subcriteria were rasterized and classified into four suitability levels. The weighted overlay of sub-criteria maps generated a territorial suitability model. Within the Alto Utcubamba Commonwealth (Amazonas, Peru), 0.069%, 41.70%, 66.934%, 0.20%, and 12.4% of the territory are suitable, moderately suitable, less suitable, unsuitable, and restricted, respectively, for landfill establishment. Subsequently, 16 highly suitable sites were selected based on the required area (S4 polygons ≥ 0.505 ha) in line with the projected solid waste generation over 20 years. Of the 16 selected areas, only 15 met the shape index. The model showed high accuracy (AUC = 0.784) during validation. Furthermore, this study provides a comprehensive framework for making decisions about waste management in developing countries, enhancing understanding of key factors in selecting landfill sites. It also offers a deeper insight into global and local factors that determine the suitability of landfill sites. [ABSTRACT FROM AUTHOR]

Published

2024

2. Knowledge and Attitudes of Parents about Oral Health in the Primary Dentition Stage in a Peruvian High Andean City.

Author

Rojas-Briceño, Nilton B., Oc Carrasco, Oscar J., Silva Díaz, Yshoner A., Ordinola Ramírez, Carla M., Pizarro Salazar, Oscar, Tuesta-Mendoza, Shírley J., and Silva-López, Jhonsy O.

Published

2024

3. Land Suitability for Cocoa Cultivation in Peru: AHP and MaxEnt Modeling in a GIS Environment.

Author

Rojas-Briceño, Nilton B., García, Ligia, Cotrina-Sánchez, Alexander, Goñas, Malluri, Salas López, Rolando, Silva López, Jhonsy O., and Oliva-Cruz, Manuel

Subjects

CACAO beans, ARABLE land, ANALYTIC hierarchy process, COCOA, CACAO, SUSTAINABLE agriculture

Abstract

Peru is one of the world's leading exporters of cocoa beans, which directly impacts the household economy of millions of small farmers. Currently, the expansion and modernization of the cocoa-growing area require the zoning of the territory with suitable biophysical and infrastructural conditions to facilitate optimizing productivity factors. Therefore, we analyzed land suitability for cocoa (Theobroma cacao L.) production on the Peruvian mainland as a support measure for sustainable agriculture. To this end, the climatological, edaphological, orographic, and socioeconomic criteria determining sustainable cocoa cultivation were identified and mapped. Three modeling approaches (Analytic Hierarchy Process—AHP, Maximum Entropy—MaxEnt, and AHP—MaxEnt combined) were further used to hierarchize the importance of the criteria and to model the potential territory for sustainable cocoa cultivation. In all three modeling approaches, climatological criteria stood out among the five most important criteria. Elevation (orographic criteria) is also featured in this group. On the other hand, San Martin and Amazonas emerged as the five regions with the largest area 'Highly suitable' for cocoa cultivation in all three modeling approaches, followed by Loreto, Ucayali, Madre de Dios, Cusco, Junín, and Puno, which alternated according to modeling approach. From most to least restrictive, the AHP, MaxEnt, and AHP–MaxEnt modeling approaches indicate that 1.5%, 5.3%, and 23.0% of the Peruvian territory is 'Highly suitable' for cocoa cultivation, respectively. [ABSTRACT FROM AUTHOR]

Published

2022

4. Accuracy Assessment of Direct Georeferencing for Photogrammetric Applications Based on UAS-GNSS for High Andean Urban Environments.

Author

Salas López, Rolando, Terrones Murga, Renzo E., Silva-López, Jhonsy O., Rojas-Briceño, Nilton B., Gómez Fernández, Darwin, Oliva-Cruz, Manuel, and Taddia, Yuri

Published

2022

5. Dynamics of the Burlan and Pomacochas Lakes Using SAR Data in GEE, Machine Learning Classifiers, and Regression Methods.

Author

Gómez Fernández, Darwin, Salas López, Rolando, Rojas Briceño, Nilton B., Silva López, Jhonsy O., and Oliva, Manuel

Subjects

CART algorithms, MACHINE learning, DATA extraction, SUCCESSIVE approximation analog-to-digital converters, LAKES, BODIES of water, SUPPORT vector machines

Abstract

Amazonas is a mountain region in Peru with high cloud cover, so using optical data in the analysis of surface changes of water bodies (such as the Burlan and Pomacochas lakes in Peru) is difficult, on the other hand, SAR images are suitable for the extraction of water bodies and delineation of contours. Therefore, in this research, to determine the surface changes of Burlan and Pomacochas lakes, we used Sentinel-1 A/B products to analyse the dynamics from 2014 to 2020, in addition to evaluating the procedure we performed a photogrammetric flight and compared the shapes and geometric attributes from each lake. For this, in Google Earth Engine (GEE), we processed 517 SAR images for each lake using the following algorithms: a classification and regression tree (CART), Random Forest (RF) and support vector machine (SVM).) 2021-02-10, then; the same value was validated by comparing the area and perimeter values obtained from a photogrammetric flight, and the classification of a SAR image of the same date. During the first months of the year, there were slight increases in the area and perimeter of each lake, influenced by the increase in rainfall in the area. CART and Random Forest obtained better results for image classification, and for regression analysis, Support Vector Regression (SVR) and Random Forest Regression (RFR) were a better fit to the data (higher R2), for Burlan and Pomacochas lakes, respectively. The shape of the lakes obtained by classification was similar to that of the photogrammetric flight. For 2021-02-10, for Burlan Lake, all 3 classifiers had area values between 42.48 and 43.53, RFR 44.47 and RPAS 45.63 hectares. For Pomacohas Lake, the 3 classifiers had area values between 414.23 and 434.89, SVR 411.89 and RPAS 429.09 hectares. Ultimately, we seek to provide a rapid methodology to classify SAR images into two categories and thus obtain the shape of water bodies and analyze their changes over short periods. A methodological scheme is also provided to perform a regression analysis in GC using five methods that can be replicated in different thematic areas. [ABSTRACT FROM AUTHOR]

Published

2022

6. Spatiotemporal Dynamics of Grasslands Using Landsat Data in Livestock Micro-Watersheds in Amazonas (NW Peru).

Author

Marin, Nilton Atalaya, Barboza, Elgar, López, Rolando Salas, Vásquez, Héctor V., Gómez Fernández, Darwin, Terrones Murga, Renzo E., Rojas Briceño, Nilton B., Oliva-Cruz, Manuel, Gamarra Torres, Oscar Andrés, Silva López, Jhonsy O., and Cayo, Efrain Turpo

Subjects

LANDSAT satellites, CATTLE breeds, NORMALIZED difference vegetation index, GRASSLANDS

Abstract

In Peru, grasslands monitoring is essential to support public policies related to the identification, recovery and management of livestock systems. In this study, therefore, we evaluated the spatial dynamics of grasslands in Pomacochas and Ventilla micro-watersheds (Amazonas, NW Peru). To do this, we used Landsat 5, 7 and 8 images and vegetation indices (normalized difference vegetation index (NDVI), enhanced vegetation index (EVI) and soil adjusted vegetation index (SAVI). The data were processed in Google Earth Engine (GEE) platform for 1990, 2000, 2010 and 2020 through random forest (RF) classification reaching accuracies above 85%. The application of RF in GEE allowed surface mapping of grasslands with pressures higher than 85%. Interestingly, our results reported the increase of grasslands in both Pomacochas (from 2457.03 ha to 3659.37 ha) and Ventilla (from 1932.38 ha to 4056.26 ha) micro-watersheds during 1990–2020. Effectively, this study aims to provide useful information for territorial planning with potential replicability for other cattle-raising regions of the country. It could further be used to improve grassland management and promote semi-extensive livestock farming. [ABSTRACT FROM AUTHOR]

Published

2022

7. Analytic Hierarchy Process (AHP) for a Landfill Site Selection in Chachapoyas and Huancas (NW Peru): Modeling in a GIS-RS Environment.

Author

Silva López, Jhonsy O., Salas López, Rolando, Rojas Briceño, Nilton B., Gómez Fernández, Darwin, Terrones Murga, Renzo E., Iliquín Trigoso, Daniel, Barboza Castillo, Elgar, Oliva Cruz, Manuel, and Barrena Gurbillón, Miguel Ángel

Subjects

ANALYTIC hierarchy process, LANDFILLS, GEOGRAPHIC information systems, REMOTE sensing

Abstract

The evaluation of suitable landfill sites is a complex process and requires various legislative, technical, social, and environmental criteria. Therefore, this study provides a management tool for identifying suitable sites for landfills through the integrated use of the analytic hierarchy process (AHP), geographic information systems (GISs), and remote sensing (RS). Accordingly, fourteen subcriteria were identified and grouped into physical (7), environmental (3), and socioeconomic (4) criteria and were weighed using pairwise comparison matrices (PCMs). The weighted linear combination (WLC) approach of maps allowed us to generate models and submodels of land suitability. From the territory of the districts of Chachapoyas and Huancas, 0.9% (1.71 km2), 71.1% (141.89 km2), 21.0% (41.86 km2), 0.0%, and 7.7% (14.21 km2) have highly suitable, moderately suitable, marginally suitable, unsuitable, and restricted conditions, respectively, for a landfill site. Twelve highly suitable sites were identified, of which three were selected based on their shape and the minimum area required for the operation of the landfill until 2040. In fact, this study proposes a management tool for decision-makers (DMs) that improve the process of selecting landfill sites, supported by engineering and its applications for territorial sustainability. [ABSTRACT FROM AUTHOR]

Published

2022

8. Site Selection for a Network of Weather Stations Using AHP and Near Analysis in a GIS Environment in Amazonas, NW Peru.

Author

Rojas Briceño, Nilton B., Salas López, Rolando, Silva López, Jhonsy O., Oliva-Cruz, Manuel, Gómez Fernández, Darwin, Terrones Murga, Renzo E., Iliquín Trigoso, Daniel, Barrena Gurbillón, Miguel, and Barboza, Elgar

Subjects

METEOROLOGICAL stations, GEOGRAPHIC information systems, ANALYTIC hierarchy process, METEOROLOGICAL observations

Abstract

Meteorological observations play a major role in land management; thus, it is vital to properly plan the monitoring network of weather stations (WS). This study, therefore, selected 'highly suitable' sites with the objective of replanning the WS network in Amazonas, NW Peru. A set of 11 selection criteria for WS sites were identified and mapped in a Geographic Information System, as well as their importance weights were determined using Analytic Hierarchy Process and experts. A map of the suitability of the territory for WS sites was constructed by weighted superimposition of the criteria maps. On this map, the suitability status of the 20 existing WS sites was then assessed and, if necessary, relocated. New 'highly suitable' sites were determined by the Near Analysis method using existing WS (some relocated). The territory suitability map for WS showed that 0.3% (108.55 km2) of Amazonas has 'highly suitable' characteristics to establish WS. This 'highly suitable' territory corresponds to 26,683 polygons (of ≥30 × 30 m each), from which 100 polygons were selected in 11 possible distributions of new WS networks in Amazonas, with different number and distance of new WS in each distribution. The implementation of this methodology will be a useful support tool for WS network planning. [ABSTRACT FROM AUTHOR]

Published

2021

9. Land Suitability Analysis for Potato Crop in the Jucusbamba and Tincas Microwatersheds (Amazonas, NW Peru): AHP and RS–GIS Approach.

Author

Iliquín Trigoso, Daniel, Salas López, Rolando, Rojas Briceño, Nilton B., Silva López, Jhonsy O., Gómez Fernández, Darwin, Oliva, Manuel, Quiñones Huatangari, Lenin, Terrones Murga, Renzo E., Barboza Castillo, Elgar, and Barrena Gurbillón, Miguel Ángel

Subjects

FARM management, SUSTAINABLE agriculture, FARMS, AGRICULTURAL productivity, ANALYTIC hierarchy process, POTATO growing, POTATOES

Abstract

Agricultural productivity in the Peruvian region of Amazonas is being jeopardized by conflicts and inadequate land use, that are ultimately contributing to environmental degradation. Therefore, our aim is to assess land suitability for potato (Solanum tuberosum L.) farming in the Jucusbamba and Tincas microwatersheds located in Amazonas, in order to improve land-use planning and enhance the crop productivity of small-scale farmers. The site selection methodology involved a pair-wise comparison matrix (PCM) and a weighted multicriteria analysis using the Analytical Hierarchy Process (AHP) on selected biophysical and socioeconomical drivers. Simultaneously, land cover mapping was conducted using field samples, remote sensing (RS), geostatistics and geographic information systems (GIS). The results indicated that for potato crop farming, the most important criteria are climatological (30.14%), edaphological (29.16%), topographical (25.72%) and socioeconomical (14.98%) in nature. The final output map indicated that 8.2% (22.91 km2) was highly suitable, 68.5% (190.37 km2) was moderately suitable, 21.6% (60.11 km2) was marginally suitable and 0.0% was not suitable for potato farming. Built-up areas (archaeological sites, urban and road networks) and bodies of water were discarded from this study (4.64 km2). This study intends to promote and guide sustainable agriculture through agricultural land planning. [ABSTRACT FROM AUTHOR]

Published

2020

10. Land Suitability for Coffee (Coffea arabica) Growing in Amazonas, Peru: Integrated Use of AHP, GIS and RS.

Author

Salas López, Rolando, Gómez Fernández, Darwin, Silva López, Jhonsy O., Rojas Briceño, Nilton B., Oliva, Manuel, Terrones Murga, Renzo E., Iliquín Trigoso, Daniel, Barboza Castillo, Elgar, and Barrena Gurbillón, Miguel Ángel

Subjects

COFFEE growing, ANALYTIC hierarchy process, SUSTAINABLE agriculture, GEOGRAPHIC information systems, COFFEE growers, COFFEE manufacturing, COFFEE drinks, COFFEE

Abstract

Peru is one of the world's main coffee exporters, whose production is driven mainly by five regions and, among these, the Amazonas region. However, a combined negative factor, including, among others, climate crisis, the incidence of diseases and pests, and poor land-use planning, have led to a decline in coffee yields, impacting on the family economy. Therefore, this research assesses land suitability for coffee production (Coffea arabica) in Amazonas region, in order to support the development of sustainable agriculture. For this purpose, a hierarchical structure was developed based on six climatological sub-criteria, five edaphological sub-criteria, three physiographical sub-criteria, four socio-economic sub-criteria, and three restrictions (coffee diseases and pests). These were integrated using the Analytical Hierarchy Process (AHP), Geographic Information Systems (GIS) and Remote Sensing (RS). Of the Amazonas region, 11.4% (4803.17 km2), 87.9% (36,952.27 km2) and 0.7% (295.47 km2) are "optimal", "suboptimal" and "unsuitable" for the coffee growing, respectively. It is recommended to orient coffee growing in 912.48 km2 of territory in Amazonas, which presents "optimal" suitability for coffee and is "unsuitable" for diseases and pests. This research aims to support coffee farmers and local governments in the region of Amazonas to implement new strategies for land management in coffee growing. Furthermore, the methodology used can be applied to assess land suitability for other crops of economic interest in Andean Amazonian areas. [ABSTRACT FROM AUTHOR]

Published

2020