Publication Schedule By transitioning to a predominantly electronic distribution, we have been able to control and reduce costs incurred by the National Speleological Society to produce and ...distribute individual issues of the Journal. Because we feel this is such an important improvement, we decided to not wait until the new year to implement this change. The new format has been designed to improve online viewing and readability, to maintain a professional quality and look that is consistent with peer publications, and to reduce our production time.
In the past 20 years, karst desertification control has produced remarkable results, and the South China karst has been a global hotspot for greening. However, in the new stage of karst ...desertification control, the functional lag of forest ecosystems and the insufficient supply capacity of ecosystem services are gradually becoming prominent. We not only lack systematic research on vulnerability and resilience, structure and stability, ecological assets and services, carrying capacity and ecological security, and service trade-offs/synergies and optimization in controlled ecosystems. There is still a lack of research on the ecological processes of newly constructed forests in improving ecosystem functions and services. Therefore, this reprint mainly focuses on the research improvement of forest ecosystem functions in karst desertification control. This includes the improvement mechanism of ecosystem structure, function, and services, the mechanism of ecosystem service tradeoff/synergy, and function optimization. An optimization model of ecosystem function and an improvement path for eco-product supply are introduced. The role of functional traits in the maintenance of ecological function and services is also established, and social–ecological responses to afforestation in karst desertification control are discussed.
Resumen Times 12 Alrededor del 10% de la superficie de tierra en el mundo está ocupada por sistemas kársticos (Bakalowicz, 2005), de gran importancia porque muchas veces contienen agua subterránea ...que puede ser utilizada para abastecimiento. Los acuíferos de estos sistemas son los más susceptibles a la contaminación debido a sus altas velocidades de flujo y a que los procesos de atenuación son nulos o poco eficientes (Duarte, 2016). Para la valoración de la vulnerabilidad ante esta contaminación existen dos enfoques, el hidropedológico y el geomorfológico de los cuales deriva una lista importante de metodologías. Estas metodologías, desarrolladas desde 1995, tienen un fuerte componente hidrogeológico (Aguilar Duarte et al., 2016). El Índice IVAKY tiene un enfoque geomorfopedológico ya que integra espacialmente, elementos ambientales (relieve, suelo y clima) determinantes en la interpretación de la vulnerabilidad del acuífero. El objeto de este trabajo es presentar el mapa de vulnerabilidad a la contaminación del acuífero en el municipio de Bacalar, Quintana Roo, utilizando la metodología del Índice IVAKY (Índice de Vulnerabilidad del Acuífero Kárstico Yucateco) elaborada por Aguilar Duarte et al. (2016). El municipio de Bacalar es de reciente creación (año 2011) y tiene una superficie de 7,161.1 kilómetros cuadrados (17% del total estatal). Dentro de sus límites se encuentran varios cuerpos de agua tales como la Laguna de Bacalar, que tienen importantes aportes del acuífero. La profundidad promedio del acuífero en la región es de 5 metros. Por lo tanto, dicho acuífero debe estar sujeto a un especial cuidado por su fragilidad y exposición (Universidad de Quintana Roo, 2005) En el cálculo se utilizaron fuentes oficiales de información: para la caracterización geomorfológica de las depresiones kársticas (Fragoso-Servón, Bautista, Frausto, & Pereira, 2014), de la cual se obtiene el factor kárstico, el mapa de isohipsas escala 1:50,000 y para el factor edáfico, el mapa edafológico escala 1:250,000 ambos del Instituto Nacional de Estadística Geografía e Informática (INEGI); para el factor climático, la precipitación y evapotranspiración mensual se obtuvieron de las estadísticas de las estaciones meteorológicas del Servicio Meteorológico Nacional (SMN), las cuales fueron interpoladas para obtener las zonas con una duración similar del periodo de lluvias en el año (DPLL). El DPLL se define como el número de meses en los que la precipitación es mayor a la mitad de la evapotranspiración (DPLL=PP>EP*0.5). De acuerdo a la clasificación de Depresiones Kársticas, la zona con mayor densidad se encuentra cercana a la Laguna de Bacalar y desde ahí hacia el norte del municipio, otra zona con una densidad alta es la cercana a la costa. En el municipio, el 35% de los suelos son de tipo Leptosol rendzico asociado principalmente a Vertisoles y Gleysoles. Los leptosoles son suelos jóvenes, poco profundos, pedregosos y de drenaje libre; por lo que su potencial de filtración a la contaminación es muy poco. Los vertisoles ocupan el 24% de la superficie municipal, estos suelos tienen buenas propiedades de retención de agua. El periodo de lluvia más extenso es de 8 meses y se presenta en la zona cercana a la línea de costa, este periodo se registra de junio a diciembre de cada año. Para obtener el IVAKY fueron calificados los factores (relieve kárstico, edáfico, climático) de acuerdo a la metodología descrita por Aguilar Duarte et al. (2016) donde se emplea la siguiente formula: IVAKY=(0.65*karst)+(0.29*suelo)+(0.05*clima). Los resultados señalan que el 24% de la superficie del municipio tiene una vulnerabilidad media a la contaminación del acuífero, que se distribuye desde el sur y con una tendencia hacia el noroeste. La zona con vulnerabilidad de Muy baja a Baja (16%) se encuentra al oeste del municipio, donde la altitud esta entre los 100 y los 265 metros y donde los suelos dominantes son los Vertisoles, Regosoles y Phaeozem. Las zonas con una vulnerabilidad más alta (60%) son aquellas donde la densidad de depresiones es más alta, la altitud promedio es de 15 metros y los suelos dominantes son los Leptosoles y Luvisoles. Estas zonas se encuentran en la parte central del municipio y otra, de menor extensión, cercana a la línea de costa. Generalmente, las depresiones kársticas sufren inundaciones en el periodo de lluvias, por lo que un próximo paso es relacionar estas inundaciones con los efectos adversos que pueden ocasionar en las actividades económicas establecidas en zonas con una mayor densidad de ellas. En el municipio, el acuífero no se encuentra sobreexplotado y la calidad del agua en él es buena (Gobierno del Estado de Quintana Roo, 2013), por lo que el conocimiento y cuidado del mismo es crucial en etapas previas al desarrollo, como la que se está dando partir de su creación y el incentivo a actividades económicas.
This reprint encompasses karst ecosystem quality, ecosystem services, climate change, ecological restoration, vegetation dynamics, land management, and the element biogeochemical cycle. These are ...closely related to land system science, landscape, land–climate interactions, the water–energy–land–food nexus, ecosystem services, and multifunctionality and sustainability. We expect that this reprint will contribute to ecological construction and land use management in karst areas.
This paper gives a comprehensive explanation of the hydrogeological and hydrological characteristics of different water occurrence, which exists in the extremely complex Dinaric karst system. The ...area and boundaries of the Dinaric karst have never been precisely determined. It covers about 60,000 km² stretching the length of the eastern coast of the Adriatic Sea, from the Bay of Trieste in the north, to the Drim River basin in the south, and the Western Morava River valley in the east. Due to very high infiltration rates, overland and surface flows are rare in comparison with non-karst terrains. The Dinaric karst is an extremely heterogeneous medium which can be explained only by the use of a great number of measurements points and by continuously monitoring and measuring different parameters. The hydrogeological and hydrological regime of all water phenomena in the Dinaric karst depends mostly upon the interaction between groundwater and surface water. The dominant flow of the groundwater contained in the Dinaric karst is towards the Adriatic Sea through rivers and many permanent and intermittent coastal and submarine springs. The paper presents many examples of karst water phenomena from the Dinaric karst: (1) springs (Jadro, Ombla and Crnojevića Springs); (2) open streamflows (Ljubljanica, Pazinčica, Dobra, Lika, Gacka, Krka, Zrmanja and Cetina Rivers); (3) lakes and wetlands (Cerknica, Vrana, Plitvice, Vransko, Red and Blue Lakes); and (4) coastal and island karst (Brač Island).
Land use decisions in karst terrains can have immediate and serious impacts on the local landscape and groundwater resources. The existing literature on karst and land use can be very difficult to ...locate in the journals of any of a half-dozen different disciplines. This book brings the interdisciplinary knowledge together in one place, in a format that academics and professionals alike will find accessible, informative and useful. Based on an examination of existing regulations, the experiences and opinions of planners and land use professionals, and quantitative analysis of publicly-available data, the book explores how human settlement patterns and urban systems in karst terrains are affected by land use regulations intended to protect karst resources. The book pays particular attention to the questions of whether these regulations will have a noticeable impact on density and on opportunities for economic growth and development in communities that choose to implement them. This analysis serves as the basis for a regulatory framework that may be used to understand the workings of land use regulations in karst terrains, and to aid in the development of such regulations in the future.
Karst aquifers contribute substantially to freshwater supplies in many regions of the world, but are vulnerable to contamination and difficult to manage because of their unique hydrogeological ...characteristics. Many karst systems are hydraulically connected over wide areas and require transboundary exploration, protection and management. In order to obtain a better global overview of karst aquifers, to create a basis for sustainable international water-resources management, and to increase the awareness in the public and among decision makers, the World Karst Aquifer Mapping (WOKAM) project was established. The goal is to create a world map and database of karst aquifers, as a further development of earlier maps. This paper presents the basic concepts and the detailed mapping procedure, using France as an example to illustrate the step-by-step workflow, which includes generalization, differentiation of continuous and discontinuous carbonate and evaporite rock areas, and the identification of non-exposed karst aquifers. The map also shows selected caves and karst springs, which are collected in an associated global database. The draft karst aquifer map of Europe shows that 21.6% of the European land surface is characterized by the presence of (continuous or discontinuous) carbonate rocks; about 13.8% of the land surface is carbonate rock outcrop.
Eighty-one karst types and their main characteristics are described in this study, including the conditions of their development, the main characteristics of their karstification and their ...characteristic features. The classification includes the karst types of the Earth, a concise description of each karst type and the possibilities of belonging to several types of various karst areas. The classification of types is hierarchical in terms of groups, subgroups, types and subtypes. Karst can be classified according to their momentary state (the group of static karst types) and to their development (group of dynamic karst types). The group of static karst types has the azonal and zonal subgroups. zonal karst types may be situated under any climate. These karst types are categorized according to their geological characteristics (age of karstification, constituting rock, extent of coveredness, structure), their elevation, expansion, the morphology of their surface, hydrology and to the effects occurring on the karst. Taking the above mentioned factors into consideration, the author distinguishes various types and describes their characteristics. Zonal karst types are also described (tundra karst, temperate karst, subtropical karst, tropical karst), karst types that can be distinguished based on their geomorphic evolution are identified and their characteristics are presented.