Martín Enrique Romero Sánchez scite author profile

Assessing and monitoring forest degradation under national Monitoring, Verification and Reporting (MRV) systems in developing countries have been difficult to implement due to the lack of adequate technical and operational capacities. This study aims at providing methodological options for monitoring forest degradation in developing countries by using freely available remote sensing, forest inventory and ancillary data. We propose using Canopy Cover to separate, through a time series analysis approach using Landsat Imagery, forest areas with changes over time from sectors that report a "stable condition". Above ground Biomass and Net Primary Productivity derived from remote sensing data were used to define thresholds for areas considered degraded. The approach was tested in a semi-deciduous tropical forest in the Southeast of Mexico. The results showed that higher rates of forest degradation, 1596 to 2865 ha year −1 , occur in areas with high population densities. The results also showed that 43% of the forests of the study area remain with no evident signs of degradation, as determined by the indicators used. The approach and procedures followed allowed for the identification and mapping of the temporal and spatial distribution of forest degradation, based on the indicators selected, and they are expected to serve as the basis for operations of the Reduction of Emissions from Deforestation and Forest Degradation (REDD+) initiative in Mexico and other developing countries, provided appropriate adaptations of the methodology are made to the conditions of the area in turn.

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Estimación de la densidad forestal mediante imágenes Landsat ETM+ en la región sur del Estado de México

Mireles

Miranda

Sánchez

et al. 2017

RMCF

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En el contexto de los mecanismos de mitigación del cambio climático, el monitoreo forestal constante es importante porque los bosques proporcionan información clave. La estimación de parámetros por medio de imágenes de satélite en combinación con información derivada de inventarios permite mantener información actualizada de la estructura del bosque a costo relativamente accesible. Para lograrlo es necesario utilizar modelos que construyan asociaciones válidas entre datos de sensores remotos y de campo. El objetivo de este estudió fue analizar la relación entre el área basal (AB), el volumen (V) y la biomasa (B) derivadas del Inventario Forestal y de Suelos del Estado de México y los datos espectrales provenientes de imágenes Landsat ETM+. El mejor modelo para estimar AB, V, y B incorporó como variable independiente la banda infrarrojo medio (IRM), que presentó la más alta corrección con los datos de campo. Los modelos de regresión ajustados resultantes sirvieron para estimar con precisión el AB, V y B. Todos los modelos de regresión fueron altamente significativos al 95 % de confiabilidad, con coeficientes de determinación (R2 adj) de 0.52, 0.54 y 0.60 para AB, V y B, respectivamente; lo cual hizo posible elaborar mapas de los parámetros forestales. El estimador de regresión presentó el inventario más conservador e intervalos de menor amplitud con respecto al MSA.

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Comparison of data gap-filling methods for Landsat ETM+ SLC-off imagery for monitoring forest degradation in a semi-deciduous tropical forest in Mexico

Sánchez

Poncé-Hernandez

Franklin

et al. 2015

International Journal of Remote Sensing

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Modelling potential distribution of a pine bark beetle in Mexican temperate forests using forecast data and spatial analysis tools

González-Hernández¹,

Morales-Villafaña

Sánchez³

et al. 2018

J. For. Res.

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Characterizing New Wintering Sites for Monarch Butterfly Colonies in Sierra Nevada, Mexico

Miranda¹,

Padilla²,

Sánchez³

2020

Insects

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Every year, Danaus plexippus (Linnaeus, 1758) travels to hibernate in oyamel fir forests located between the limits of the states of Michoacán and Mexico in Mexico. Climate change and anthropogenic actions are diminishing oyamel fir forests in Mexico, putting pressure on the habitats of monarch butterflies. In the last decade, new colonies outside their usual range have been predicted through modeling and reported by the National Commission on Protected Areas of Mexico. The objectives of the study were to recover information on the historical and new hibernation sites, reported or modeled, from different literature sources. We also aimed to perform a bioclimatic and forest biometric characterization of new monarch butterfly colonies located in Sierra Nevada in Mexico to provide information to aid in conservation strategies for the monarch butterfly population. We conducted field trips to georeference the colonies at sites located in the Atlautla municipality in Mexico State. Climatic, topographic, and forest biometric variables were used to characterize the sites physically. It was found that the butterfly’s roosts occurred at a higher elevation than those recorded by other sources. The locations where the monarch’s colonies were established, in the east of Mexico State, provide information relevant to defining and developing policies for their conservation.

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Potencial de restauración de bosques de coníferas en zonas de movimiento de germoplasma en México

García

Sánchez

Miranda

et al. 2020

RMCF

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La restauración de tierras forestales requiere datos relacionados con el número de plántulas producidas y el nivel de degradación del suelo. Los tomadores de decisiones necesitan saber cuáles son los esfuerzos del programa nacional de reforestación como impulsor de la restauración de ecosistemas en México. Para evaluar el potencial de restauración de los bosques de coníferas y reducir la degradación de tierra en Zonas de Movimiento de Germoplasma (ZMG), se compararon zonas prioritarias para la restauración con los esfuerzos de reforestación más efectivos: porcentaje de sobrevivencia de plántulas plantadas, número de viveros (N), unidades de producción de germoplasma (UPG) y bancos de germoplasma (BG); para ello, se usó la base de datos de la Conafor correspondiente al periodo de 2016 a 2018. Se determinó que 27 ZMG tenían tierras forestales como áreas prioritarias: 7 418 975.30 ha de baja producción y 9 389 577.70 ha de degradación media y baja. De acuerdo con las variables utilizadas en el análisis comparativo, se identificaron ocho ZMG (XII.4, XII.5, X.3, X.2, XII.1, V.3, XII.2 y XV.1) como zonas de mayor potencial para la restauración, debido a que sus áreas prioritarias podrían ser reforestadas totalmente con especies de Pinus y Abies.

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Los Muérdagos Verdaderos Del Arbolado De La Ciudad De México

Padilla

Bautista

Tejeda

et al. 2018

RMCF

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RESUMENEn los últimos años los árboles de las áreas verdes urbanas del Distrito Federal han presentado problemas de muérdago. La falta de conocimiento sobre estos y su distribución ha propiciado la investigación científica sobre el tema. Los objetivos del estudio fueron determinar las plantas parásitas, sus hospederos, niveles de infestación y distribución en las áreas verdes urbanas de las 16 delegaciones políticas del Distrito Federal. Con el apoyo de expertos se identificaron las especies de muérdago y sus hospederos ubicadas en el área de estudio. La infestación se evaluó de acuerdo con una escala de cinco niveles. Cladocolea loniceroides, Phoradendron velutinum y Struthanthus interruptus se detectaron en siete delegaciones, sobre 17 hospederas pertenecientes a 10 familias botánicas. Se muestreó un total de 2 653 individuos, de los cuales 112 tenían muérdago, es decir, 4.2%, y en la delegación Cuauhtémoc se registró el mayor porcentaje de árboles o arbustos infestados (14.2%). Con los niveles establecidos se calculó la siguiente proporción por categoría: 95.77% corresponde al nivel I; 2.1% al II; 1.6% al III; 0.5% al IV y 0% al V. La información obtenida permitirá llevar a cabo programas de manejo y monitoreo de las plantas parásitas en las áreas verdes urbanas de la Ciudad de México.Palabras clave: Cladocolea loniceroides (Tiegh.) Kuijt, muérdago, muestreo, Phoradendron velutinum (DC.) Oliv, plantas parásitas, Struthanthus interruptus (Kunth) G. Don. ABSTRACTIn recent years, the green areas of Mexico City have shown problems of true mistletoes on the trees. Lack of knowledge about the species and distribution has limited research in this issue. The main objective of this study was to develop a methodology to determine the distribution of the species of mistletoe in urban areas of Distrito Federal. With the help of experts on mistletoe taxonomy all the species collected in the study area were identified. The infestation degree was assessed with a qualitative scale of five levels. The mistletoe species, Cladocolea loniceroides, Phoradendron velutinum and Struthanthus interruptus were found in seven of the 16 total delegations over 17 host species of 10 botanical families. From 2 653 host species sampled, 112 showed mistletoe (4.22%). Cuauhtémoc delegation had the highest level of infestation of trees or shrubs per cent (14.2%). With the levels that were set, results were distributed as follows: 95.77% belong to level I; 2.1% to level II; 1.6% to level III; 0.5% to level IV and 0% to level V. The information of this study will facilitate management programs and monitoring of mistletoe in the Mexico City green urban areas. INTRODUCCIÓNLos muérdagos son plantas parásitas o semiparásitas con flores que se unen al tallo de su hospedero (gimnospermas y angiospermas), compiten con él por agua y nutrimentos e impiden su desarrollo. Cuando son abundantes sobre el árbol, provocan la muerte del mismo, sobre todo en aquellos lugares que están próximos al límite inferior de sus posibilidades de subsistencia. Se distribuy...

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Current and Potential Spatial Distribution of Six Endangered Pine Species of Mexico: Towards a Conservation Strategy

Sánchez¹,

Miranda²,

González-Hernández³

et al. 2018

Forests

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Mexico is home to the highest species diversity of pines: 46 species out of 113 reported around the world. Within the great diversity of pines in Mexico, Pinus culminicola Andresen et Beaman, P. jaliscana Perez de la Rosa, P. maximartinenzii Rzed., P. nelsonii Shaw, P. pinceana Gordon, and P. rzedowskii Madrigal et M. Caball. are six catalogued as threatened or endangered due to their restricted distribution and low population density. Therefore, they are of special interest for forest conservation purposes. In this paper, we aim to provide up-to-date information on the spatial distribution of these six pine species according to different historical registers coming from different herbaria distributed around the country by using spatial modeling. Therefore, we recovered historical observations of the natural distribution of each species and modelled suitable areas of distribution according to environmental requirements. Finally, we evaluated the distributions by contrasting changes of vegetation in the period 1991–2016. The results highlight areas of distribution for each pine species in the northeast, west, and central parts of Mexico. The results of this study are intended to be the basis of in situ and ex situ conservation strategies for the endangered Mexican pines.

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