RESUMO
Today, most of the worlds population faces water scarcity, while global warming, urbanization, industrialization and population increases continue to increase the severity of the pressure on water resources. Management ofwater resources plays a key role in the sustainability of agricultural production. The water footprint (WF) is different in comparison to other water statistics because it takes direct and indirect water consumption into account, and helps in the management of water resources. Within this context, the WF of Van province, which is Turkeys most easterly located arid region, was calculated from 2004 to 2019. The study area covers lake Van, which is Turkey's largest lake, and the Van basin with an area of 23.334km² and a population of 1.136.757 (2019). In the calculations, crop (WFcrop), livestock (WFlivestock), and domestic and industrial water footprints (WFdomestic+industrial) were evaluated separately, and blue and green water footprints (WFblue and WFgreen) were analyzed in detail. According to the results, the average WF of Van province was found to be 8.73 billionm3 year-¹. Throughout the province, 87.6% of the WF is composed of WFcrop, 4.9% is WFlivestock and 7.5% is WFdomestic+industrial. Of the WFcrop, 62.5% depends on WFblue, i.e., freshwater. Most of the WFlivestock consisted of dairy cattle (49%) and sheep (38%). The average WFdomestic+industrial for 2004 to 2019 was 0.64billion m³ year-¹. The average per capita water footprint of Van province was found to be 889.9m³ year-¹ capita-¹. In addition, the province is classified as severe water scarcity (257%). This study is one of the first province-based calculations of WF in Turkey and is the first study to bring a different aspect to published literature by including residual soil moisture from the winter months. As a result of this study, the WFblue of the [...].
Hoje, a maior parte da população mundial enfrenta a escassez de água, enquanto o aquecimento global, a urbanização, a industrialização e o crescimento da população continuam a aumentar a gravidade da pressão sobre os recursos hídricos. A gestão dos recursos hídricos desempenha papel fundamental na sustentabilidade da produção agrícola. A pegada hídrica (WF) é diferente em comparação com outras estatísticas hídricas porque leva em consideração o consumo direto e indireto de água e auxilia na gestão dos recursos hídricos. Nesse contexto, o WF da província de Van, que é a região árida localizada mais a leste da Turquia, foi calculado de 2004 a 2019. A área de estudo cobre o lago Van, que é o maior lago da Turquia, e a bacia de Van, com uma área de 23,334 km² e uma população de 1.136.757 (2019). Nos cálculos, as pegadas hídricas de safra (WFcrop), pecuária (WFlivestock) e doméstica e industrial (WFdomestic+industrial) foram avaliadas separadamente, e as pegadas hídricas azul e verde (WFblue e WFgreen) foram analisadas em detalhes. De acordo com os resultados, o WF médio da província de Van foi encontrado em 8,73 bilhões de m³ ano-¹. Em toda a província, 87,6% do WF são compostos por WFcrop, 4,9% são WFlivestock e 7,5% são WFdomestic+industrial. Do WFcrop, 62,5% dependem do WFblue, ou seja, de água doce. A maior parte do gado WFlivestock era composto por gado leiteiro (49%) e ovelhas (38%). O WFdomestic+industrial médio de 2004 a 2019 foi de 0,64 bilhão de m³ ano-¹. A pegada hídrica per capita média da província de Van foi encontrada em 889,9 m³ ano-¹ capita-¹. Além disso, a região é classificada como grave escassez de água (257%). Este estudo é um dos primeiros cálculos de WF baseados em províncias na Turquia e é o primeiro estudo a trazer um aspecto diferente para a literatura publicada, incluindo a umidade residual do solo dos meses de inverno. Como resultado deste estudo, o WFblue do WFcrop está [...].
Assuntos
Conservação dos Recursos Hídricos/estatística & dados numéricos , Conservação dos Recursos Hídricos/métodos , Recursos Hídricos/provisão & distribuiçãoRESUMO
Today, most of the worlds population faces water scarcity, while global warming, urbanization, industrialization and population increases continue to increase the severity of the pressure on water resources. Management ofwater resources plays a key role in the sustainability of agricultural production. The water footprint (WF) is different in comparison to other water statistics because it takes direct and indirect water consumption into account, and helps in the management of water resources. Within this context, the WF of Van province, which is Turkeys most easterly located arid region, was calculated from 2004 to 2019. The study area covers lake Van, which is Turkey's largest lake, and the Van basin with an area of 23.334km² and a population of 1.136.757 (2019). In the calculations, crop (WFcrop), livestock (WFlivestock), and domestic and industrial water footprints (WFdomestic+industrial) were evaluated separately, and blue and green water footprints (WFblue and WFgreen) were analyzed in detail. According to the results, the average WF of Van province was found to be 8.73 billionm3 year-¹. Throughout the province, 87.6% of the WF is composed of WFcrop, 4.9% is WFlivestock and 7.5% is WFdomestic+industrial. Of the WFcrop, 62.5% depends on WFblue, i.e., freshwater. Most of the WFlivestock consisted of dairy cattle (49%) and sheep (38%). The average WFdomestic+industrial for 2004 to 2019 was 0.64billion m³ year-¹. The average per capita water footprint of Van province was found to be 889.9m³ year-¹ capita-¹. In addition, the province is classified as severe water scarcity (257%). This study is one of the first province-based calculations of WF in Turkey and is the first study to bring a different aspect to published literature by including residual soil moisture from the winter months. As a result of this study, the WFblue of the [...].(AU)
Hoje, a maior parte da população mundial enfrenta a escassez de água, enquanto o aquecimento global, a urbanização, a industrialização e o crescimento da população continuam a aumentar a gravidade da pressão sobre os recursos hídricos. A gestão dos recursos hídricos desempenha papel fundamental na sustentabilidade da produção agrícola. A pegada hídrica (WF) é diferente em comparação com outras estatísticas hídricas porque leva em consideração o consumo direto e indireto de água e auxilia na gestão dos recursos hídricos. Nesse contexto, o WF da província de Van, que é a região árida localizada mais a leste da Turquia, foi calculado de 2004 a 2019. A área de estudo cobre o lago Van, que é o maior lago da Turquia, e a bacia de Van, com uma área de 23,334 km² e uma população de 1.136.757 (2019). Nos cálculos, as pegadas hídricas de safra (WFcrop), pecuária (WFlivestock) e doméstica e industrial (WFdomestic+industrial) foram avaliadas separadamente, e as pegadas hídricas azul e verde (WFblue e WFgreen) foram analisadas em detalhes. De acordo com os resultados, o WF médio da província de Van foi encontrado em 8,73 bilhões de m³ ano-¹. Em toda a província, 87,6% do WF são compostos por WFcrop, 4,9% são WFlivestock e 7,5% são WFdomestic+industrial. Do WFcrop, 62,5% dependem do WFblue, ou seja, de água doce. A maior parte do gado WFlivestock era composto por gado leiteiro (49%) e ovelhas (38%). O WFdomestic+industrial médio de 2004 a 2019 foi de 0,64 bilhão de m³ ano-¹. A pegada hídrica per capita média da província de Van foi encontrada em 889,9 m³ ano-¹ capita-¹. Além disso, a região é classificada como grave escassez de água (257%). Este estudo é um dos primeiros cálculos de WF baseados em províncias na Turquia e é o primeiro estudo a trazer um aspecto diferente para a literatura publicada, incluindo a umidade residual do solo dos meses de inverno. Como resultado deste estudo, o WFblue do WFcrop está [...].(AU)
Assuntos
Conservação dos Recursos Hídricos/métodos , Conservação dos Recursos Hídricos/estatística & dados numéricos , Recursos Hídricos/provisão & distribuiçãoRESUMO
The restoration of mangroves has gained prominence in recent decades. Hydrological rehabilitation has been undertaken to connect impaired mangroves with the sea, lagoons or estuaries. Because mangrove hydrodynamics occurs on the surface and interstitial spaces in the sediment, we propose to determine the hydrological flow paths to restore the hydrological regimes of the impaired mangroves. The hydrological flow paths were determined through a micro basin analysis based on microtopographic data to generate a digital elevation model. Applying this methodological approach, the hydrology of an impaired area on a barrier island in the Gulf of Mexico was restored by excavating, desilting or clearing the channels on the identified hydrological flow paths. This area was compared to one in which impaired mangroves were reconnected to the marine lagoon but disregarding the flow paths. Data collected in both areas were evaluated by flood level analysis, using two methods: (i) a simple linear regression model (SLRM) and (ii) spectral analysis (SA), also known as dominant frequency analysis. The results suggest that restoration based on the hydrological flow paths was more effective than the direct opening to the nearest main water body without accounting for the microtopography. In both areas, soil salinity and sulfides decreased after hydrological reconnection. However, a greater efficiency in the investment of time and human resources was achieved when preferential flow paths were identified and taken into account. The methodological procedures described in this study are of universal application to other mangrove restoration programs.
Assuntos
Conservação dos Recursos Naturais/métodos , Áreas Alagadas , Mudança Climática/estatística & dados numéricos , Conservação dos Recursos Naturais/estatística & dados numéricos , Conservação dos Recursos Hídricos/métodos , Conservação dos Recursos Hídricos/estatística & dados numéricos , Monitoramento Ambiental/estatística & dados numéricos , Estuários , Inundações/prevenção & controle , Inundações/estatística & dados numéricos , Golfo do México , Hidrodinâmica , Ilhas , Modelos Lineares , México , Modelos Teóricos , Salinidade , SoloRESUMO
Introducción: La investigación y el diagnóstico de fuentes hídricas es de interés académico y gubernamental, la exploración de instrumentos numéricos aplicados al ordenamiento de cuencas brinda la posibilidad de identificar dónde y qué variables son útiles en programas de monitoreo y rehabilitación en ecosistemas acuáticos, lo cual incluye la calidad del agua, convencionalmente analizada por índices fisicoquímicos e hidrobiológicos. En el 2014 a través de la guía de ordenamiento hídrico en Colombia, se desarrolló una evaluación del índice de calidad ecológica (ICE); la cual genera un sistema numérico de correlaciones que diagnostica, clasifica y detecta afectaciones ambientales. Objetivo: Esta investigación pretende demostrar que el ICE permite evaluar la calidad de ecosistemas acuáticos afectados por diferentes situaciones ambientales. Métodos: Se analizaron tres escenarios ubicados en diferentes regiones de Colombia y como grupo hidrobiológico indicador se utilizaron las algas perifíticas y fitoplanctónicas. Los ecosistemas fueron monitoreados entre el 2007 y 2016 y corresponden a una planicie de inundación, un río andino de alta montaña y un grupo de quebradas en un bosque húmedo tropical. Resultados: Las correlaciones canónicas fueron significativas (P < 0.005) y se estimó el óptimo y la tolerancia de cada taxa; variables relacionadas con la concentración de iones, la amortiguación de la acidez, la temperatura y la hidráulica, incidieron en la distribución de las abundancias de los organismos y la clasificación ecológica mediante el índice. Conclusiones: La aplicación del índice permite identificar variables, organismos y ordenamientos numéricos que posibilitan clasificar el estado ecológico en un sistema, resultados útiles en el diagnóstico y seguimiento de los ecosistemas acuáticos estudiados y que pueden ser implementados con otros escenarios.
Introduction: Research and diagnosis of water sources is of academic and governmental interest, for this reason, the exploration of numerical tools applied to watershed management, offers the possibility to identify where and what variables are useful in monitoring and rehabilitation programs of aquatic ecosystems. Environmental planning and management, which includes water quality, is conventionally analyzed by physical, chemical and hydrobiological indexes. In 2014, through the water management guide, included the assessment of the ecological quality index (EQI); it was generated a comprehensive approach through a numerical system of correlations that diagnoses, classifies and detects environmental impacts. Objective: This research aims to demonstrate that the EQI allows to assess the quality of aquatic ecosystems affected by different environmental situations. Methods: In order to analyze the application of this tool, we studied three scenarios located in different biogeographical regions of Colombia and, as a hydrobiological group indicator, we used peripheral and phytoplankton algae. The ecosystems were monitored between 2007 and 2015 and correspond to a flood plain, a high mountain Andean river and a group of water stream in a tropical humid forest. Results: Canonical correlations were significant (P < 0.005)and a model of weighted averages, allowed to estimate the optimum and the tolerance of each taxa for the sites ecological classification; variables related to ion concentration, acidity damping, temperature and hydraulics, influenced the models that explained the abundances distribution of the studied biological groups. Conclusions: The application of the EQI makes it possible to identify variables, organisms and numerical systems to classify ecological status. These results are useful in the diagnosis and monitoring of aquatic ecosystems and that can be implemented in other scenarios.
Assuntos
Ecossistema , Conservação dos Recursos Hídricos/estatística & dados numéricos , ColômbiaRESUMO
Water scarcity is one of the main problems faced by many regions in the XXIst century. In this context, the need to reduce leakages from water distribution systems has gained almost universal acceptance. The concept of sustainable economic level of leakage (SELL) has been proposed to internalize the environmental and resource costs within economic level of leakage calculations. However, because these costs are not set by the market, they have not often been calculated. In this paper, the directional-distance function was used to estimate the shadow price of leakages as a proxy of their environmental and resource costs. This is a pioneering approach to the economic valuation of leakage externalities. An empirical application was carried out for the main Chilean water companies. The estimated results indicated that for 2014, the average shadow price of leakages was approximately 32% of the price of the water delivered. Moreover, as a sensitivity analysis, the shadow prices of the leakages were calculated from the perspective of the water companies' managers and the regulator. The methodology and findings of this study are essential for supporting the decision process of reducing leakage, contributing to the improvement of economic, social and environmental efficiency and sustainability of urban water supplies.