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At present, obesity and overweight are major public health concerns. Their classical determinants do not sufficiently explain the current situation and it is urgent to investigate other possible causes. In recent years, it has been suggested that water intake could have important implications for weight management. Thus, the aim of this study was to examine the effect of hydration status on body weight and composition in healthy adolescents from Spain. The study involved 372 subjects, aged 12–18 years. Water intake was assessed through the validated “hydration status questionnaire adolescent young”. Anthropometric measurements were performed according to the recommendations of the International Standards for Anthropometric Assessment (ISAK) and body composition was estimated by bioelectrical impedance analysis. Water intake normalized by body weight was positively correlated with body water content (boys (B): r = 0.316, p = 0.000; girls (G): r = 0.245, p = 0.000) and inversely with body mass index (BMI) (B: r = −0.515, p = 0.000; G: r = −0.385, p =0.000) and fat body mass (B: r = −0.306, p = 0.000; G: r = −0.250, p = 0.001). Moreover, according to BMI, overweight/obese individuals consumed less water than normal weight ones. In conclusion, higher water balance and intake seems to be related with a healthier body composition.

Freshwater availability is seriously threatened by expanding water demand and contamination concerns, particularly in dryland regions worldwide. Furthermore, global climate change is increasing water salinity by altering the global supply of groundwater and surface water. The quality of animal water has a significant impact on livestock production, influencing several processes such as growth, metabolism, reproduction, and body temperature. Although animals can tolerate bad water quality better than humans, livestock can be harmed if chemicals are added to the water. The poor quality of drinking water can have an impact on livestock productivity and welfare; however, tolerance to low water quality varies by species, race, and environmental conditions. As a result, this review examined the influences of poor-quality water on livestock production and productivity in arid and semi-arid areas in an era of changing climate. Despite variations in adapted physiological parameters, blood hematology, biochemical, food, and water consumption, camels and goats adapt to high salt levels in desert regions. Small ruminants' nutritional intake and performance, as well as their breathing rate and blood biochemistry concentrations, all decrease when the salinity of their drinking water increases. While research on small and resilient ruminant breeds that can survive high salinity levels is underway around the world, further study is needed to understand the water-resistant features of adapted livestock species and breeds, particularly in dry and salty places impacted by changing climate.

This study evaluates variations in petrophysical properties within a mixed alluvial to lacustrine carbonate system (Miocene, Madrid Basin, Central Spain). The transition from alluvial environments to lake margins settings displays a shift from alluvial, siliciclastic red sandstones and mudstones to palustrine–lacustrine mudstones to packstones. Fluctuations in lake‐water level enabled land plants to occupy the lake margins during periods of low lake levels. The palustrine carbonates include features like pseudo‐microkarst, nodular and mottled limestones; the lacustrine deposits include enlarged root cavities, desiccation cracks and channel bodies. Scarce fresh water biota comprises charophytes, gastropods and ostracods. The sediments possess high natural, irregular varying, gamma‐ray values at the alluvial–lacustrine transition, and low, but constant values at full lacustrine sites. Acoustic properties agree with lithological variations within individual facies. Porosity is the most important parameter influencing P‐wave and S‐wave velocities. The scatter in the velocity–porosity relationship links to the porosity type; macro‐porosity or microporosity. The wide range of pore types and pore sizes results in a weak porosity to permeability relationship for the carbonate‐dominated rocks with low permeability for microporous and high permeability for macro‐porous carbonates. The sandstones (probably only inhibiting interparticle porosity), and to a lesser extent the sandy wackestones to packstones, show quite a strong relationship between porosity and permeability. Elastic properties of mixed alluvial–lacustrine deposits (this study) and marine deposits (literature data) overlap as variations in pore structures and porosity values are similar. Only 16% of the marine and lacustrine carbonate sediments display Equivalent Pore Aspect Ratio values above 0.2. In travertine deposits, 83% of the samples exceed Equivalent Pore Aspect Ratio values above 0.2, which highlights that travertine deposits are dominated by larger Equivalent Pore Aspect Ratios compared to lacustrine and marine carbonate deposits. Travertines display other rock frameworks with different pore types, pore distribution and amount of porosity. Discussion of the sedimentological variations and associated petrophysical properties within Miocene alluvial, palustrine and lacustrine deposits (Madrid Basin). A comparison is made between the petrophysical properties of alluvial, palustrine and lacustrine deposits, travertines, and full marine carbonate deposits. This comparison shows the resemblance in petrophysical properties of full‐marine and lacustrine carbonates and the different behaviour of travertines.

When the socialist party (PSOE) unexpectedly won the Spanish elections in 2004, one of the first initiatives of the new government was to scrap the most controversial parts of the Second National Hydraulic Plan, approved in 2001 by the Conservative government (PP). The new plan (AGUA) replaces highly contested major river diversion schemes with a new hydro-technical logic, centered on the construction of high-volume desalination plants on the Mediterranean coast as the means to manage Spain's recurrent water crisis. The desalination of seawater has indeed become one of the contested terrains for managing hydro-scarcities. This article teases out the heterogeneous and often conflicting post-1980s assembling of heterogeneous human and nonhuman agents around desalination as a new socioecological fix for Spain. The broader intellectual objective of the article is, first, to explore how diverse political projects, social visions, the materialities of water, ecological concerns, cultural imaginaries, discursive formations, institutional practices, and economic strategies of global competitiveness fuse together around specific hydro-technical infrastructures. Second, the article considers how desalination and the networks of actors sustaining its realization mark the transition from a state hydro-structural to a decentralized market environmentalist water framework. The article concludes that the assemblage of socionatural actors around the desalination fix and the \"mobilization of the seas\" continues to focus on increasing water supply and reproduces hydro-modernizing development despite affirmations of radical change.

The increasing prevalence of overweight and obesity has become an epidemic public health problem worldwide. In the last years, several investigations have suggested that water intake and retention could have important implications for both weight management and body composition. However, there is a lack of information about this issue globally, and mainly specifically in Spain. Thus, the aim of this study was to analyze the association between hydration status and body composition in a sample of healthy Spanish adults. The study involved 358 subjects, aged 18–39 years. The recently validated “hydration status questionnaire” was used to assess their water intake, elimination, and balance. Anthropometric measurements were performed according to the recommendations of the International Standards for Anthropometric Assessment (ISAK). Body composition variables were acquired by bioelectrical impedance analysis. Differences in anthropometric and body composition variables were assessed through the ANOVA test and considered significant at p < 0.05. Fluid intake was correlated with body water content. Inverse associations between water consumption, normalized by weight, with body weight, body fat mass, and waist circumference were found. Moreover, according to water balance, significant differences in body water content in females were observed. In conclusion, higher fluid intake seems to be related with a healthier body composition. Therefore, the improvement of water intake and water balance could be useful for overweight and obesity prevention, although further studies are needed to confirm the present findings.

This study assesses the chemical state of surface water bodies (SWBs) in the Júcar River Basin District (Spain), specifically focusing on contaminants such as nickel, lead, imazalil, and thiabendazole. To identify risky zones, the RREA model was combined with a Python-based subroutine to estimate the minimum non-compliance load (MNCL). The results show that many SWBs fail to meet water quality criteria due to point source pollution. The RREA (Rapid Response to Environmental status) model improves monitoring capacities by confirming SWB chemical statuses and detecting locations that have not been monitored or assessed thoroughly. The study also analyzes confidence levels by comparing MNCL to the current accumulated load (CAL), allowing for the identification and prioritization of important non-compliant SWBs and locations that require additional examination. This methodology not only enhances the accuracy of compliance evaluations but also serves as a useful tool for targeted water quality management initiatives. The results of this paper highlight the potential of the proposed pressure-impact approach to assess the chemical state of SWBs. This approach is useful to support sustainable management measures that mitigate water quality issues and preserve the environmental status of SWBs.

IntroductionThe increasing prevalence of overweight and obesity has developed into an epidemic public health problem worldwide. In this regard, in the last years several investigations have suggested that water intake and water balance could have important implications for both weight management and body composition. The aim of this study was to analyse the association between fluid intake, water balance and body composition in a sample of healthy young adults from Spain.Material and methodsA total of 358 healthy subjects (121 males; 237 females) aged 18–39 years participated in the current study. The validated questionnaire entitled “The hydration status questionnaire” was used to assess fluid intake, elimination, and water balance. Anthropometric measurements (height, weight and waist circumference) were performed according to the recommendations of the International Standards for Anthropometric Assessment (ISAK). The estimates of total body water (TBW), fat mass (FM) and fat free mass (FFM) were acquired by bioelectrical bioimpedance analysis. Physical activity was estimated through the Short form of the International Physical Activity Questionnaire (IPAQ-SF). Differences in anthropometric and body composition variables were assessed through the ANOVA test and considered significant at p < 0.05.ResultsFluid intake was correlated with body water content in females (r = 0.180, p = 0.006) and males (r = 0.266, p = 0.003). An inverse association between water consumption per weight (ml/kg) with body weight (females (f): r = -0.318, p = 0.000; males (m): r = -0.220, p = 0.015), body fat mass (f: r = -0.320, p = 0.000; m: r = -0.200, p = 0.028), and waist circumference (f: r = -0.237, p = 0.000; m: r = -0.215, p = 0.018) was found. Finally, significant differences in body water content in females according to water balance were observed (p = 0.04).DiscussionHigher fluid intake seems to be related with a better body composition, therefore the improvement of water intake and water balance could be useful in weight management and in the prevention of overweight and obesity in healthy young adults.

Stormwater management in cities has traditionally been based on centralized systems, evacuating runoff as quickly as possible through drainage networks that collect and convey the runoff to the final point of treatment or the receiving water body. In recent years, a different approach focused on the use of Sustainable Urban Drainage Systems (SUDS) represents a paradigm shift, promoting a decentralized management as close to the runoff source as possible. Among these techniques, permeable pavements represent an effective solution for reducing runoff and providing pollutant treatment. This contribution describes the results obtained from an innovative ceramic permeable pavement developed as part of the LIFE CERSUDS project in the city of Benicàssim (Spain). This pavement, composed by modules built from ceramic tiles in stock, allows water infiltration, runoff treatment and water reuse as part of a SUDS built in 2018 and monitored from September 2018 to September 2019. The purpose of the research was to demonstrate the hydraulic performance of the proposed solution through monitoring of runoff quantity and quality variables. Monitoring data analysis have shown positive results, reducing peak runoff rates and the volume of water which is conducted downstream. From the hydrological point of view, the system capacity shown a 100% runoff management for events up to 15–25 mm of precipitation. This is a very significant threshold since these values represent, respectively, the 81% and 91% percentiles for the study area. System performance was confirmed in terms of runoff management and water infiltration. This demonstration case study represents a reference example of urban retrofitting actions which integrate social, economic and environmental aspects.

Chemical and physical-chemical parameters define water quality and are involved in water body type and habitat determination. They support a biological community of a certain ecological status. Water quality controls involve a large number of measurements of variables and observations according to the European Water Framework Directive (Directive 2000/60/EC). In some cases, such as areas with especially critical uses or points in which potential pollution episodes are expected, the automatic monitoring is recommended. However, the chemical and physical-chemical measurements are costly and time consuming. Turbidity is shown as a key variable for the water quality control and it is also an integrative parameter. For this reason, the aim of this work is focused on this main parameter through the study of the influence of several water quality parameters on it. The artificial neural networks (ANNs) have been used in a wide range of biological problems with promising results. Bearing this in mind, turbidity values have been predicted here by using artificial neural networks (ANNs) from the remaining measured water quality parameters with success taking into account the synergistic interactions between the input variables in the Nalón river basin (Northern Spain). Finally, the main conclusions of this study are exposed.