Future Scenarios for Land Use in Chile: Identifying Drivers of Change and Impacts over Protected Area System

Benavidez-Silva, César; Jensen, Magdalena

doi:10.3390/land10040408

Cited by 20 publications

(8 citation statements)

References 101 publications

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“…Actualmente, cerca de un 75% de la superficie de la localidad de Quintay se encuentra urbanizada, con alrededor del 51% bajo uso urbano de alta y mediana intensidad, y un 23% de baja densidad (IMCC 2020). Además, se pronostica en la zona existirá un aumento de la población en un 54% para el año 2025 (Benavidez-Silva et al 2021).…”

Section: áRea De Estudiounclassified

Fauna en vegetación nativa y plantaciones forestales del área periurbana de Quintay: Una oportunidad para la conservación del patrimonio natural en la costa de Chile central

Muñoz Pacheco,

Villaseñor,

Escobar

2023

Rev. geogr. Norte Gd.

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Fauna en vegetación nativa y plantaciones forestales del área periurbana de Quintay:una oportunidad para la conservación del patrimonio natural en la costaRevista d e GeoGRafía NoRte GRaNde birds and mammals) in relicts of hygrophilous forests (n=2), sclerophyllous scrub (n=3) and forest plantations (n=3). The native vegetation (hygrophilous forests and sclerophyllous scrub) supported greater number of endemic and threatened animal species, and greater species richness and abundance of small mammals. Forest plantations presented a greater species richness and abundance of forest bird species. Based on our findings, we proposed recommendations to conserve native fauna, which is part of Quintay's natural heritage, in the context of urban expansion promoted by its new Regulatory Plan.

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Section: áRea De Estudiounclassified

Fauna en vegetación nativa y plantaciones forestales del área periurbana de Quintay: Una oportunidad para la conservación del patrimonio natural en la costa de Chile central

Muñoz Pacheco,

Villaseñor,

Escobar

2023

Rev. geogr. Norte Gd.

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“…Chilean governmental conservation agencies are currently using these vegetation units to identify new protected areas through systematic conservation planning (Luebert and Pliscoff 2010;Pliscoff and Fuentes-Castillo 2011). They have also been employed to assess the effects of climate change on Chilean Ecosystems (Pliscoff et al 2012;Arroyo et al 2019;Benavidez-Silva et al 2021), identifying the impacts on biodiversity of the recent 2017 mega-fires in central Chile (Pliscoff et al 2020) and to establish categories of ecosystem risk of collapse (Pliscoff 2015;Alaniz et al 2016;Luebert and Pliscoff 2017;Pliscoff et al 2019) following the recently developed IUCN guidelines (Rodríguez et al 2015). This classification has also been utilised as an input in attempts to establish an ecosystem typology at supra-national level (Luebert and Pliscoff 2009;Josse 2014;Keith et al 2020), and has the potential to be adapted to the EcoVeg classification approach (Faber-Langendoen et al 2014) aimed at providing an international standard for vegetation classification (Faber-Langendoen et al 2018.…”

Section: International Vegetation Classificationmentioning

confidence: 99%

The vegetation of Chile and the EcoVeg approach in the context of the International Vegetation Classification project

Luebert¹

2022

VCS

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Aims: Chilean vegetation has previously received considerable attention, and several classifications are currently available. The most recent of these was presented for the first time in 2006 and updated in 2017 by the authors. Although widely utilized by researchers both in Chile and Latin America, this information is only available in Spanish, which hampers its usefulness for a broader scientific audience. Here, we provide an overview of the methods and the resulting classification and propose a correspondence between Chilean classification and the International Vegetation Classification (IVC) following the EcoVeg scheme. Study area: Continental Chile. Methods: Based on the criteria of the EcoVeg approach, we established a linkage of zonal and azonal vegetation units to the macrogroup level and to the formation classes of the IVC. We also generated a map to facilitate crosswalk between the classifications. Results: We recognize 23 macrogroups, 13 divisions and 11 formations of zonal vegetation, including three newly proposed macrogroups, one division and one formation. We further recognize 23 macrogroups, 23 divisions and 17 formations of intrazonal vegetation. Together, they encompass all six formation classes of natural vegetation of the IVC. We highlight those units so far not mentioned for Chile in the IVC. Finally, we provide a map of macrogroups and discuss the limitations and prospects of this approach for the classification of Chilean vegetation. Conclusions: Chilean zonal vegetation was successfully accommodated in the IVC down to the macrogroup level. The process of linking Chilean zonal vegetation and macrogroups led us to a few suggestions that may be used to improve the IVC. Taxonomic reference: Zuloaga et al. (2008). Abbreviations: IVC = International Vegetation Classification

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“…The Cramer's V Coe cient (CVC), sometimes also called Cramer's V strategies, was used to assess the correlations between the various driving variables. According to Eastman (2009), variables that have a Cramer's V>0.40 are good and these drivers will have the greatest impact on the modi cation process and its spatial distribution (Gaur et al 2020;Benavidez-Silva et al 2021;Vu et al 2021).…”

Section: Prediction Of Future Lulc and Associated Driving Forcesmentioning

confidence: 99%

Historical and future land use and land cover changes in the Fincha watershed, Ethiopia

Regasa

Nones

2021

Preprint

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The increasing human pressure on African regions is recognizable from land use land cover (LULC) changes maps, as derived from satellite imagery. Using the Ethiopian Fincha watershed as a case study, the present work focuses on i) identifying historical LULC change in the period 1989-2019; ii) estimating LULC in the next thirty years, combining Geographical Information Systems (GIS) with Land Change Modelling (LCM). Landsat5/8 images were combined with field evidence to map LULC in three reference years (1989, 2004, 2019), while the Multi-Layer Markov Chain (MPL-MC) model of LCM was applied to forecast LULC in 2030, 2040 and 2050. The watershed was classified into six classes: waterbody, grass/swamp, built-up, agriculture; forest and shrub. The results have shown that, in the past 30 years, the Fincha watershed experienced a reduction of forest and shrubs due to ever-increasing agricultural activities, and such a trend is also expected in the future. In addition, the decrease in areas covered by natural forests can drive to an increase in soil erosion, fostering the siltation in the water reservoirs located in the basin. The study pointed out the urgency of taking actions in the basin to counteract such changes, which can eventually drive to a less sustainable environment.

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Future Scenarios for Land Use in Chile: Identifying Drivers of Change and Impacts over Protected Area System

Cited by 20 publications

References 101 publications

Fauna en vegetación nativa y plantaciones forestales del área periurbana de Quintay: Una oportunidad para la conservación del patrimonio natural en la costa de Chile central

Fauna en vegetación nativa y plantaciones forestales del área periurbana de Quintay: Una oportunidad para la conservación del patrimonio natural en la costa de Chile central

The vegetation of Chile and the EcoVeg approach in the context of the International Vegetation Classification project

Historical and future land use and land cover changes in the Fincha watershed, Ethiopia

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Future Scenarios for Land Use in Chile: Identifying Drivers of Change and Impacts over Protected Area System

Cited by 20 publications

References 101 publications

Fauna en vegetación nativa y plantaciones forestales del área periurbana de Quintay: Una oportunidad para la conservación del patrimonio natural en la costa de Chile central

Fauna en vegetación nativa y plantaciones forestales del área periurbana de Quintay: Una oportunidad para la conservación del patrimonio natural en la costa de Chile central

﻿The vegetation of Chile and the EcoVeg approach in the context of the International Vegetation Classification project

Historical and future land use and land cover changes in the Fincha watershed, Ethiopia

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The vegetation of Chile and the EcoVeg approach in the context of the International Vegetation Classification project