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254. Heterogeneity in schistosomiasis transmission dynamics

Author

Mari, Lorenzo, primary, Ciddio, Manuela, additional, Casagrandi, Renato, additional, Perez-Saez, Javier, additional, Bertuzzo, Enrico, additional, Rinaldo, Andrea, additional, Sokolow, Susanne H., additional, De Leo, Giulio A., additional, and Gatto, Marino, additional

Published
2017
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263. Storage selection functions: A coherent framework for quantifying how catchments store and release water and solutes

Author

Rinaldo, Andrea, Benettin, Paolo, Harman, Ciaran J., Hrachowitz, Markus, Kevin McGuire, Velde, Ype, Bertuzzo, Enrico, Botter, Gianluca, Forest Resources and Environmental Conservation, and Virginia Water Resources Research Center

Subjects
TRANSIT-TIME DISTRIBUTIONS, FLOW, DOUBLE PARADOX, MODELS, TRACER, Environmental Sciences & Ecology, basin-scale transport, Limnology, biogeochemical processes, hydrologic response, mixing and dispersion, residence time distributions, travel time distributions, Water Science and Technology, Marine & Freshwater Biology, RUNOFF, GROUNDWATER AGE, RESIDENCE TIME, PE&RC, Settore ICAR/02 - Costruzioni Idrauliche e Marittime e Idrologia, TRANSPORT, Bodemgeografie en Landschap, basin-scale transport, hydrologic response, mixing and dispersion, residence time distributions, travel time distributions, biogeochemical processes TRANSIT-TIME DISTRIBUTIONS, GROUNDWATER AGE, RESIDENCE TIME, DOUBLE PARADOX, TRANSPORT, FLOW, RUNOFF, MODELS, CHLORIDE, TRACER, Soil Geography and Landscape, Water Resources, CHLORIDE, SDG 6 - Clean Water and Sanitation, biogeochemical processes TRANSIT-TIME DISTRIBUTIONS, Environmental Sciences
Abstract

We discuss a recent theoretical approach combining catchment-scale flow and transport processes into a unified framework. The approach is designed to characterize the hydrochemistry of hydrologic systems and to meet the challenges posed by empirical evidence. StorAge Selection functions (SAS) are defined to represent the way catchment storage supplies the outflows with water of different ages, thus regulating the chemical composition of out-fluxes. Biogeochemical processes are also reflected in the evolving residence time distribution and thus in age-selection. Here we make the case for the routine use of SAS functions and look forward to areas where further research is needed. Key Points: Storage selection functions recapitulate age dynamics Formulation of transport by travel time distributions Flow and transport at catchment scales

Published
2015
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266. Tracking residence times in hydrological systems: Forward and backward formulations

Author

Benettin, Paolo, Rinaldo, Andrea, and Botter, Gianluca

Subjects
Catchment scale, Tracer transport, Travel time distributions, Water Science and Technology
Abstract

In recent years, several papers contributed to the development and clarification of key theoretical issues underlying the formulation of transport by travel time distributions in catchments. Such a formulation provides a robust description of the temporal evolution of ages contained in the catchment storage and sampled by the output fluxes. In particular, special attention has been devoted to general time-variant dynamics that are likely to occur in complex systems like catchments. In this context, important theoretical and practical implications arise from a proper distinction between backward and forward age distributions, which are based on the definition of diverse reference variables. The 'age' of a water particle represents the time elapsed since a previous injection, and as such, it is intrinsically a backward time concept. A forward approach, instead, requires the introduction of the particle's 'life expectancy', which quantifies the time a water particle will spend within the system before being sampled by one of the outflows (e.g. stream discharge or evapotranspiration). The sum of age and life expectancy is the particle's travel time. Despite forward and backward approaches being different, and that they only coincide in the special case of stationary systems, a proper distinction of these formulations has been sometimes overlooked in the literature. In this contribution, we review recent backward formulations using a unified notation and discuss a novel forward formulation. This paper illustrates how age and life-expectancy distributions naturally evolve in response to unsteady hydrologic fluxes and presents numerical applications relevant to catchment-scale solute circulation. In both forward and backward formulations, the mixing of ages, which is modelled through age-selection functions, plays a central role in describing the fate of solutes introduced in the system and measured at the system outlets. Copyright (C) 2015 John Wiley & Sons, Ltd.

Published
2015

267. Effects of altered river network connectivity on the distribution of Salmo trutta: Insights from a metapopulation model.

Author

González‐Ferreras, Alexia M., Bertuzzo, Enrico, Barquín, José, Carraro, Luca, Alonso, Carlos, and Rinaldo, Andrea

Subjects
SEA trout, BROWN trout, FISH migration, SALMONIDAE, PREDATORY animals, TOP predators, KEYSTONE species, RIVERS
Abstract

Network connectivity is a key feature of rivers that affects patterns and processes in lotic ecosystems. Few studies have considered how changes in river reach connectivity might affect ecosystem attributes at a whole river network scale. The use of population dynamics models of keystone species at a river network scale allows exploration of how the effects of altered natural connectivity patterns might propagate through a river network.In this study, we present a metapopulation model to estimate the spatial distribution of the population density of brown trout (Salmo trutta), an ecologically and socioeconomically important top predator, in a river network in northern Spain. The model accounts for the presence of barriers that limit longitudinal connectivity in upstream and downstream directions. The model estimates the spatial distribution of densities of three age‐classes (young‐of‐the‐year, juveniles, and adults) in all river reaches that make up the network based on topology, connectivity and population dynamics (e.g. age‐class specific mortality, spawning, age‐class dispersal, and spawning migration patterns).Seventy‐five percent of the modelled population densities fell within the 95% confidence intervals of the empirical data (84.6% for young‐of‐the‐year, 69.2% for juveniles, and 69.2% for adults) collected in 13 reaches. The simulated removal of all longitudinal barriers to migration in the river network (re‐naturalisation of the whole catchment) produced a modelled increase in brown trout density in the most downstream reaches of the river network and lowered fish densities in the upstream portion of the network when bias in juvenile and adult movement direction was assumed. Furthermore, the simulated removal of a single obstacle affected fish density even in distant tributaries.The proposed model is an appropriate tool for the evaluation of spatial patterns of brown trout density at a river network scale and for the assessment of the impact of altered connectivity. This might help simulate the results of management strategies regarding river connectivity and show where population decreases or increases could be expected, although empirical knowledge of overall trout movement in the studied river networks is required for drawing realistic scenarios. [ABSTRACT FROM AUTHOR]

Published
2019
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268. How plant water status drives tree source water partitioning.

Author

Nehemy, Magali F., Benettin, Paolo, Asadollahi, Mitra, Pratt, Dyan, Rinaldo, Andrea, and McDonnell, Jeffrey J.

Abstract

The stable isotopes of oxygen and hydrogen (δ²H and δ18O) have been widely used to investigate plant water source partitioning. These tracers have shed new light on patterns of plant water use in time and space. However, this black box approach has limited our source water interpretations and mechanistic understanding. Here, we combine measurements of stable isotope composition in xylem and soil water pools with measurements of plant hydraulics, fine root distribution and soil matric potential to investigate mechanism(s) driving tree water source partitioning. We used a 2 m³ lysimeter planted with a small willow tree (Salix viminalis) to conduct a high spatial-temporal resolution experiment. We found that tree water source partitioning was driven mainly by tree water status and not by patterns of fine root distribution. Source water partitioning was regulated by plant hydraulic response to changing atmospheric demand and soil matric potential. The depth distribution of soil matric potential appeared to be the largest control on the patterns of soil water partitioning during periods of tree water deficit. Contrary to the common steady state assumption in ecohydrological source water investigations, our results show that tree water use is a dynamic process, driven by tree water deficit. Overall, our findings suggest new research foci for future plant water isotopic investigations, highlighting the importance of hydrometric measurements from the plant perspective. [ABSTRACT FROM AUTHOR]

Published
2019
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269. Reply to comment by Porporato and Calabrese on 'Storage selection functions: A coherent framework for quantifying how catchments store and release water and solutes'

Author

Forest Resources and Environmental Conservation, Virginia Water Resources Research Center, Rinaldo, Andrea, Benettin, Paolo, Harman, C. J., Hrachowitz, M., McGuire, Kevin J., van der Velde, Y., Bertuzzo, E., Botter, Gianluca, Forest Resources and Environmental Conservation, Virginia Water Resources Research Center, Rinaldo, Andrea, Benettin, Paolo, Harman, C. J., Hrachowitz, M., McGuire, Kevin J., van der Velde, Y., Bertuzzo, E., and Botter, Gianluca

Published
2016

270. On the need to establish an international soil modelling consortium

Author

Vereecken, Harry, Vanderborght, Jan, Schnepf, Andrea, Brüggemann, Nicolas, Amelung, Wulf, Herbst, Michael, Javaux, Mathieu, Van der Zee, Sjoerd E.A.T.M, Or, Dani, Simunek, Jirka, van Genuchten, Martinus Th., Vrugt, Jasper A., Hopmans, Jan W., Young, Michael H., Baveye, Philippe, Pachepsky, Yakov, Vanclooster, Marnik, Hallett, Paul D., Tiktak, Aaldrik, Jacques, Diederik, Vogel, Tomas, Jarvis, Nicholas, Finke, Peter, Jiménez, Juan José, Li, Changsheng S., Ogée, Jérôme, Mollier, Alain, Lafolie, Francois, Cousin, Isabelle, Pot-Genty, Valerie, Maron, Pierre-Alain, Roose, Tiina, Wall, Diana H., Schwen, Andreas, Doussan, Claude, Vogel, Hans-Jörg, Govers, Gerard, Durner, Wolfgang, Priesack, Eckart, Roth, Kurt, Horn, Rainer, Kollet, Stefan, Rinaldo, Andrea, Whitmore, Andy, Goulding, Keith, Parton, William J., Agrosphere Institute, IBG-3, Institute of Bio-geosciences, Forschungszentrum Jülich GmbH, Centre for High-Performance Scientific Computing in Terrestrial Systems, HPSC TerrSys, Earth and Life Institute‐Environmental Sciences, Université Catholique de Louvain ( UCL ), Department Soil Physics and Land Management, Environmental Sciences Group, Wageningen University and Research Centre [Wageningen] ( WUR ), Soil and Terrestrial Environmental Physics, Swiss Federal Institute of Technology in Zürich ( ETH Zürich ), Department of Environmental Sciences [Riverside], University of California [Riverside] ( UCR ), Department of Mechanical Engineering, Federal University of Rio de Janeiro, Department of Earth Sciences [Utrecht], Utrecht University [Utrecht], Department of Civil and Environmental Engineering, University of California [Irvine] ( UCI ), Department of Earth System Science [Irvine] ( ESS ), Institute for Biodiversity and Ecosystem dynamics, University of Amsterdam [Amsterdam] ( UvA ), Department of Land, Air, and Water Resources, College of Agricultural and Environmental Sciences, University of California Davis, Bureau of Economic Geology, Jackson School of Geosciences, University of Texas at Austin [Austin], Soil and Water Laboratory, Department of Civil and Environmental Engineering, Rensselaer Polytechnic Institute ( RPI ), Environmental Microbial and Food Safety Laboratory, Agricultural Research Service, Earth and Life Institute ‐ Environmental Sciences, Institute of Biological and Environmental Sciences, University of Aberdeen, Netherlands Environmental Assessment Agency, Institute for Environment, Health and Safet, Centre d'Etude de l'Energie Nucléaire ( SCK-CEN ), Department of Hydraulics and Hydrology [Praha], Czech Technical University in Prague ( CTU ), Dept. Soil & Environment, Swedish University of Agricultural Sciences ( SLU ), Department of Geology and Soil Science, Ghent University [Belgium] ( UGENT ), Instituto Pirenaico de Ecologia (IPE), Spanish National Research Council ( CSIC ), Institute for the Study of Earth, Oceans, and Space [Durham] ( EOS ), University of New Hampshire ( UNH ), Interactions Sol Plante Atmosphère ( ISPA ), Institut National de la Recherche Agronomique ( INRA ) -Ecole Nationale Supérieure des Sciences Agronomiques de Bordeaux-Aquitaine ( Bordeaux Sciences Agro ), Environnement Méditerranéen et Modélisation des Agro-Hydrosystèmes ( EMMAH ), Institut National de la Recherche Agronomique ( INRA ) -Université d'Avignon et des Pays de Vaucluse ( UAPV ), Unité de recherche Science du Sol ( USS ), Institut National de la Recherche Agronomique ( INRA ), Environnement et Grandes Cultures ( EGC ), AgroParisTech-Institut National de la Recherche Agronomique ( INRA ), Agroécologie [Dijon], Institut National de la Recherche Agronomique ( INRA ) -Université de Bourgogne ( UB ) -AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, Bioengineering Sciences Research Group, Faculty of Engineering and Environment, University of Southampton [Southampton], School of Global Environmental Sustainability, Colorado State University [Fort Collins] ( CSU ), Institute of Hydraulics and Rural Water Management, University of Natural Resources and Life Sciences, Department Soil System Science [UFZ Leipzig], Helmholtz Centre for Environmental Research ( UFZ ), Department of Earth and Environmental Sciences, Division of Geography, Katholieke Universiteit Leuven ( KU Leuven ), Institute for Geoecology, Soil Science and Soil Physics, Technische Universität Braunschweig [Braunschweig], Institute of Soil Ecology [Neuherberg] ( IBOE ), Helmholtz-Zentrum München ( HZM ), Institute of Environmental Physics [Heidelberg] ( IUP ), Universität Heidelberg [Heidelberg], Institute for Plant Nutrition and Soil Science, Christian Albrechts University, Dipartimento IMAGE, and International Centre for Hydrology 'Dino Tonini', Universita degli Studi di Padova = University of Padua = Université de Padoue, Department of Sustainable Soils and Grassland Systems, Rothamsted Research, Natural Resource Ecology Laboratory, Université Catholique de Louvain (UCL), Wageningen University and Research Centre [Wageningen] (WUR), University of California [Riverside] (UCR), University of California-University of California, University of California [Irvine] (UCI), Department of Earth System Science [Irvine] (ESS), University of Amsterdam [Amsterdam] (UvA), University of California [Davis] (UC Davis), Rensselaer Polytechnic Institute (RPI), Centre d'Etude de l'Energie Nucléaire (SCK-CEN), Czech Technical University in Prague (CTU), Swedish University of Agricultural Sciences (SLU), Ghent University [Belgium] (UGENT), Spanish National Research Council (CSIC), Institute for the Study of Earth, Oceans, and Space [Durham] (EOS), University of New Hampshire (UNH), Interactions Sol Plante Atmosphère (ISPA), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Supérieure des Sciences Agronomiques de Bordeaux-Aquitaine (Bordeaux Sciences Agro), Environnement Méditerranéen et Modélisation des Agro-Hydrosystèmes (EMMAH), Avignon Université (AU)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Unité de recherche Science du Sol (USS), Institut National de la Recherche Agronomique (INRA), Environnement et Grandes Cultures (EGC), AgroParisTech-Institut National de la Recherche Agronomique (INRA), Institut National de la Recherche Agronomique (INRA)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, University of Southampton, Colorado State University [Fort Collins] (CSU), Universität für Bodenkultur Wien [Vienne, Autriche] (BOKU), Helmholtz Centre for Environmental Research (UFZ), Department of Earth and Environmental Sciences [Leuven] (EES), Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Institute of Soil Ecology [Neuherberg] (IBOE), Helmholtz-Zentrum München (HZM), Institute of Environmental Physics [Heidelberg] (IUP), Christian-Albrechts-Universität zu Kiel (CAU), Universita degli Studi di Padova, Natural Resource Ecology Laboratory [Fort Collins] (NREL), Forschungszentrum Jülich GmbH | Centre de recherche de Juliers, Helmholtz-Gemeinschaft = Helmholtz Association-Helmholtz-Gemeinschaft = Helmholtz Association, Université Catholique de Louvain = Catholic University of Louvain (UCL), Wageningen University and Research [Wageningen] (WUR), Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Bureau of Economic Geology [Austin] (BEG), Jackson School of Geosciences (JSG), University of Texas at Austin [Austin]-University of Texas at Austin [Austin], USDA-ARS : Agricultural Research Service, Earth and Life Institute - Environmental Sciences (ELIE), Departement of Soil and Environment, Universiteit Gent = Ghent University [Belgium] (UGENT), Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), Interactions Sol Plante Atmosphère (UMR ISPA), Institut National de la Recherche Agronomique (INRA)-AgroParisTech, Helmholtz Zentrum für Umweltforschung = Helmholtz Centre for Environmental Research (UFZ), and Technische Universität Braunschweig = Technical University of Braunschweig [Braunschweig]

Subjects
sol, modélisation des sols, Earth Sciences, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, partenariat de recherche, [ SDU.STU ] Sciences of the Universe [physics]/Earth Sciences, Sciences de la Terre, expert scientifique, soil
Abstract

absent

Published
2014

280. Resilience and reactivity of global food security.

Author

Suweis, Samir, Suweis, Samir, Carr, Joel A, Maritan, Amos, Rinaldo, Andrea, D'Odorico, Paolo, Suweis, Samir, Suweis, Samir, Carr, Joel A, Maritan, Amos, Rinaldo, Andrea, and D'Odorico, Paolo

Abstract

The escalating food demand by a growing and increasingly affluent global population is placing unprecedented pressure on the limited land and water resources of the planet, underpinning concerns over global food security and its sensitivity to shocks arising from environmental fluctuations, trade policies, and market volatility. Here, we use country-specific demographic records along with food production and trade data for the past 25 y to evaluate the stability and reactivity of the relationship between population dynamics and food availability. We develop a framework for the assessment of the resilience and the reactivity of the coupled population-food system and suggest that over the past two decades both its sensitivity to external perturbations and susceptibility to instability have increased.

Published
2015

281. Linking water age and solute dynamics in streamflow at the Hubbard Brook Experimental Forest, NH, USA

Author

Forest Resources and Environmental Conservation, Virginia Water Resources Research Center, Benettin, Paolo, Bailey, Scott W., Campbell, John L., Green, M. B., Rinaldo, Andrea, Likens, Gene E., McGuire, Kevin J., Botter, Gianluca, Forest Resources and Environmental Conservation, Virginia Water Resources Research Center, Benettin, Paolo, Bailey, Scott W., Campbell, John L., Green, M. B., Rinaldo, Andrea, Likens, Gene E., McGuire, Kevin J., and Botter, Gianluca

Abstract

We combine experimental and modeling results from a headwater catchment at the Hubbard Brook Experimental Forest (HBEF), New Hampshire, USA, to explore the link between stream solute dynamics and water age. A theoretical framework based on water age dynamics, which represents a general basis for characterizing solute transport at the catchment scale, is here applied to conservative and weatheringderived solutes. Based on the available information about the hydrology of the site, an integrated transport model was developed and used to compute hydrochemical fluxes. The model was designed to reproduce the deuterium content of streamflow and allowed for the estimate of catchment water storage and dynamic travel time distributions (TTDs). The innovative contribution of this paper is the simulation of dissolved silicon and sodium concentration in streamflow, achieved by implementing first-order chemical kinetics based explicitly on dynamic TTD, thus upscaling local geochemical processes to catchment scale. Our results highlight the key role of water stored within the subsoil glacial material in both the short-term and long-term solute circulation. The travel time analysis provided an estimate of streamflow age distributions and their evolution in time related to catchment wetness conditions. The use of age information to reproduce a 14 year data set of silicon and sodium stream concentration shows that, at catchment scales, the dynamics of such geogenic solutes are mostly controlled by hydrologic drivers, which determine the contact times between the water and mineral interfaces. Justifications and limitations toward a general theory of reactive solute circulation at catchment scales are discussed.

Published
2015

282. Storage selection functions: A coherent framework for quantifying how catchments store and release water and solutes

Author

Forest Resources and Environmental Conservation, Virginia Water Resources Research Center, Rinaldo, Andrea, Benettin, Paolo, Harman, C. J., Hrachowitz, M., McGuire, Kevin J., van der Velde, Y., Bertuzzo, E., Botter, Gianluca, Forest Resources and Environmental Conservation, Virginia Water Resources Research Center, Rinaldo, Andrea, Benettin, Paolo, Harman, C. J., Hrachowitz, M., McGuire, Kevin J., van der Velde, Y., Bertuzzo, E., and Botter, Gianluca

Published
2015

283. Generalized receptor law governs phototaxis in the phytoplankton Euglena gracilis

Author

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering, Stocker, Roman, Giometto, Andrea, Altermatt, Florian, Maritan, Amos, Rinaldo, Andrea, Massachusetts Institute of Technology. Department of Civil and Environmental Engineering, Stocker, Roman, Giometto, Andrea, Altermatt, Florian, Maritan, Amos, and Rinaldo, Andrea

Abstract

Phototaxis, the process through which motile organisms direct their swimming toward or away from light, is implicated in key ecological phenomena (including algal blooms and diel vertical migration) that shape the distribution, diversity, and productivity of phytoplankton and thus energy transfer to higher trophic levels in aquatic ecosystems. Phototaxis also finds important applications in biofuel reactors and microbiopropellers and is argued to serve as a benchmark for the study of biological invasions in heterogeneous environments owing to the ease of generating stochastic light fields. Despite its ecological and technological relevance, an experimentally tested, general theoretical model of phototaxis seems unavailable to date. Here, we present accurate measurements of the behavior of the alga Euglena gracilis when exposed to controlled light fields. Analysis of E. gracilis’ phototactic accumulation dynamics over a broad range of light intensities proves that the classic Keller–Segel mathematical framework for taxis provides an accurate description of both positive and negative phototaxis only when phototactic sensitivity is modeled by a generalized “receptor law,” a specific nonlinear response function to light intensity that drives algae toward beneficial light conditions and away from harmful ones. The proposed phototactic model captures the temporal dynamics of both cells’ accumulation toward light sources and their dispersion upon light cessation. The model could thus be of use in integrating models of vertical phytoplankton migrations in marine and freshwater ecosystems, and in the design of bioreactors., Swiss Federal Institute of Aquatic Science and Technology, European Research Council (Grant RINEC-227612), Swiss National Science Foundation (Project 200021_124930/1), Swiss National Science Foundation (Project 200021_157174), Swiss National Science Foundation (Project 31003A_135622), Gordon and Betty Moore Foundation (Marine Microbiology Initiative Investigator Award GBMF3783)

Published
2015

284. Experimental evidence for strong stabilizing forces at high functional diversity of aquatic microbial communities

Author

Carrara, Francesco, Giometto, Andrea, Seymour, Mathew, Rinaldo, Andrea, Altermatt, Florian, Carrara, Francesco, Giometto, Andrea, Seymour, Mathew, Rinaldo, Andrea, and Altermatt, Florian

Abstract

Unveiling the mechanisms that promote coexistence in biological communities is a fundamental problem in ecology. Stable coexistence of many species is commonly observed in natural communities. Most of these natural communities, however, are composed of species from multiple trophic and functional groups, while theory and experiments on coexistence have been focusing on functionally similar species. Here, we investigated how functional diversity affects the stability of species coexistence and productivity in multispecies communities by characterizing experimentally all pairwise species interactions in a pool of 11 species of eukaryotes (10 protists and one rotifer) belonging to three different functional groups. Species within the same functional group showed stronger competitive interactions compared to among-functional group interactions. This often led to competitive exclusion between species that had higher functional relatedness, but only at low levels of species richness. Communities with higher functional diversity resulted in increased species coexistence and community biomass production. Our experimental findings and the results of a stochastic model tailored to the experimental interaction matrix suggest the emergence of strong stabilizing forces when species from different functional groups interact in a homogeneous environment. By combining theoretical analysis with experiments we could also disentangle the relationship between species richness and functional diversity, showing that functional diversity per se is a crucial driver of productivity and stability in multispecies community.

Published
2015

285. Generalized receptor law governs phototaxis in the Phytoplankton Euglena gracilis

Author

Giometto, Andrea, Altermatt, Florian, Maritan, Amos, Stocker, Roman, Rinaldo, Andrea, Giometto, Andrea, Altermatt, Florian, Maritan, Amos, Stocker, Roman, and Rinaldo, Andrea

Abstract

Phototaxis, the process through which motile organisms direct their swimming toward or away from light, is implicated in key ecological phenomena (including algal blooms and diel vertical migration) that shape the distribution, diversity, and productivity of phytoplankton and thus energy transfer to higher trophic levels in aquatic ecosystems. Phototaxis also finds important applications in biofuel reactors and microbiopropellers and is argued to serve as a benchmark for the study of biological invasions in heterogeneous environments owing to the ease of generating stochastic light fields. Despite its ecological and technological relevance, an experimentally tested, general theoretical model of phototaxis seems unavailable to date. Here, we present accurate measurements of the behavior of the alga Euglena gracilis when exposed to controlled light fields. Analysis of E. gracilis’ phototactic accumulation dynamics over a broad range of light intensities proves that the classic Keller–Segel mathematical framework for taxis provides an accurate description of both positive and negative phototaxis only when phototactic sensitivity is modeled by a generalized “receptor law,” a specific nonlinear response function to light intensity that drives algae toward beneficial light conditions and away from harmful ones. The proposed phototactic model captures the temporal dynamics of both cells’ accumulation toward light sources and their dispersion upon light cessation. The model could thus be of use in integrating models of vertical phytoplankton migrations in marine and freshwater ecosystems, and in the design of bioreactors.

Published
2015

287. Estimating species distribution and abundance in river networks using environmental DNA.

Author

Carraro, Luca, Hartikainen, Hanna, Jokela, Jukka, Bertuzzo, Enrico, and Rinaldo, Andrea

Subjects
RIVERS, POPULATION density, BRYOZOA, MYXOZOA, DENDRIMERS
Abstract

All organisms leave traces of DNA in their environment. This environmental DNA (eDNA) is often used to track occurrence patterns of target species. Applications are especially promising in rivers, where eDNA can integrate information about populations upstream. The dispersion of eDNA in rivers is modulated by complex processes of transport and decay through the dendritic river network, and we currently lack a method to extract quantitative information about the location and density of populations contributing to theeDNAsignal. Here,wepresent a generalframework to reconstruct the upstream distribution and abundance of a target species across a river network, based on observed eDNA concentrations and hydro-geomorphological features of the network. The model captures well the catchment-wide spatial biomass distribution of two target species: a sessile invertebrate (the bryozoan Fredericella sultana) and its parasite (the myxozoan Tetracapsuloides bryosalmonae). Our method is designed to easily integrate general biological and hydrological data and to enable spatially explicit estimates of the distribution of sessile and mobile species in fluvial ecosystems based on eDNA sampling. [ABSTRACT FROM AUTHOR]

Published
2018
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288. Chloride circulation in a lowland catchment and the formulation of transport by travel time distributions

Author

Benettin, Paolo, Van Der Velde, Ype, Van Der Zee, Sjoerd E.A.T.M., Rinaldo, Andrea, Botter, Gianluca, and Earth and Climate

Subjects
WIMEK, chloride, water, travel time distributions, hydrology, Bodemfysica en Landbeheer, Leerstoelgroep Bodemnatuurkunde, ecohydrologie en grondwaterbeheer, soil, streamwater, Soil Physics and Land Management, scale, models, flow route contributions, transport, Soil Physics, Ecohydrology and Groundwater Management, upland catchments, SDG 6 - Clean Water and Sanitation, conceptualization, residence time
Abstract

Travel times are fundamental catchment descriptors that blend key information about storage geochemistry flow pathways and sources of water into a coherent mathematical framework. Here we analyze travel time distributions (TTDs) (and related attributes) estimated on the basis of the extensive hydrochemical information available for the Hupsel Brook lowland catchment in the Netherlands. The relevance of the work is perceived to lie in the general importance of characterizing nonstationary TTDs to capture catchment transport properties here chloride flux concentrations at the basin outlet. The relative roles of evapotranspiration water storage dynamics hydrologic pathways and mass sources/sinks are discussed. Different hydrochemical models are tested and ranked providing compelling examples of the improved process understanding achieved through coupled calibration of flow and transport processes. The ability of the model to reproduce measured flux concentrations is shown to lie mostly in the description of nonstationarities of TTDs at multiple time scales including short term fluctuations induced by soil moisture dynamics in the root zone and long term seasonal dynamics. Our results prove reliable and suggest for instance that drastically reducing fertilization loads for one or more years would not result in significant permanent decreases in average solute concentrations in the Hupsel runoff because of the long memory shown by the system. Through comparison of field and theoretical evidence our results highlight unambiguously the basic transport mechanisms operating in the catchment at hand with a view to general applications. ©2013. American Geophysical Union. All Rights Reserved.

Published
2013
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289. Virtual water controlled demographic growth of nations

Author

Suweis, Samir, Rinaldo, Andrea, Maritan, Amos, and D'Odorico, Paolo

Subjects
Physics - Geophysics, Physics - Physics and Society, Physics - Data Analysis, Statistics and Probability, FOS: Physical sciences, Physics and Society (physics.soc-ph), Data Analysis, Statistics and Probability (physics.data-an), Geophysics (physics.geo-ph)
Abstract

Population growth is in general constrained by food production, which in turn depends on the access to water resources. At a country level, some populations use more water than they control because of their ability to import food and the virtual water required for its production. Here, we investigate the dependence of demographic growth on available water resources for exporting and importing nations. By quantifying the carrying capacity of nations based on calculations of the virtual water available through the food trade network, we point to the existence of a global water unbalance. We suggest that current export rates will not be maintained and consequently we question the long-run sustainability of the food trade system as a whole. Water rich regions are likely to soon reduce the amount of virtual water they export, thus leaving import-dependent regions without enough water to sustain their populations. We also investigate the potential impact of possible scenarios that might mitigate these effects through (1) cooperative interactions among nations whereby water rich countries maintain a tiny fraction of their food production available for export; (2) changes in consumption patterns; and (3) a positive feedback between demographic growth and technological innovations. We find that these strategies may indeed reduce the vulnerability of water-controlled societies., Comment: 11 pages, 3 figures

Published
2013
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290. Kinematics of age mixing in advection-dispersion models

Author

Benettin, Paolo, Rinaldo, Andrea, and Botter, Gianluca

Subjects
travel time distributions, advection-dispersion, transport at catchment scale, age kinematics
Abstract

This paper investigates age mixing processes arising in advection-dispersion models, where large-scale travel and residence time distributions can be explicitly calculated based on the underlying velocity field. In particular, we analyze spatially integrated age mixing dynamics by comparing the age distributions of the storage and of the outflow(s). The relevance of the work lies in the impact of age mixing dynamics on the shape of travel time distributions (TTDs), which ultimately control the long-term memory of catchment transport processes. We set up a theoretical framework that bridges previous Lagrangian and Eulerian water age theories in heterogeneous media. The framework allows for the analysis of the dynamical connection between water age distributions in large-scale volume and flux samples. Theoretical advances are then illustrated through the application to a finite one-dimensional domain with constant advection and dispersion coefficient. Therein, we analyze the type of mixing emerging for different Peclet numbers and diverse spatiotemporal patterns of solute input. We find that in spite of the enhanced nonstationarity of TTDs, the type of mixing is markedly invariant. Moreover, for relatively low Peclet numbers the different ages available in the control volume are systematically removed from the domain at a rate nearly proportional to their relative abundance (random sampling). Emerging large-scale patterns of age mixing yield theoretical and practical implications for watershed hydrology, where TTDs can be used to infer general patterns of catchment response across scales.

Published
2013

294. Statistical mechanics of wind wave-induced erosion in shallow tidal basins: Inferences from the Venice Lagoon

Author

D'Alpaos, Andrea, Carniello, Luca, and Rinaldo, Andrea

Subjects
Venice lagoon, sediment resuspension, hydrology, tidal flats, wind waves, tidal morphodynamics, sediment transport
Abstract

Wind wave-induced erosional effects are among the chief landscape-forming processes in tidal biomorphodynamics. Wave-driven bottom erosion, in fact, controls the equilibrium elevation and dynamics of subtidal and tidal flat surfaces, and the impact of waves against salt marsh margins influences their stability. The relevance of predictive studies projecting wind wave patterns in space and time is thus notable especially in view of the limited insight gained so far. Here we have employed a complete, coupled finite element model accounting for the role of wind waves and tidal currents on the hydrodynamic circulation in shallow basins to analyze the characteristics of combined current- and wave-induced exceedances in bottom shear stress over a given threshold for erosion. The results of our analyses from the Venice Lagoon suggest that wind wave-induced resuspension events can be modeled as a marked Poisson process, thus allowing one to set up a theoretical framework which can be used to model wind wave effects through the use of Monte Carlo realizations. This bears important consequences for quantitative analyses of the long-term biomorphodynamic evolution of tidal landscapes.

Published
2013

297. River landscapes and optimal channel networks.

Author

Balister, Paul, Balogh, József, Bertuzzo, Enrico, Bollobás, Béla, Caldarelli, Guido, Maritan, Amos, Mastrandrea, Rossana, Morris, Robert, and Rinaldo, Andrea

Subjects
LANDSCAPES, SPANNING trees, STATISTICAL mechanics, GRAVITATIONAL energy, ARBITRARY constants
Abstract

We study tree structures termed optimal channel networks (OCNs) that minimize the total gravitational energy loss in the system, an exact property of steady-state landscape configurations that prove dynamically accessible and strikingly similar to natural forms. Here, we show that every OCN is a so-called natural river tree, in the sense that there exists a height function such that the flow directions are always directed along steepest descent. We also study the natural river trees in an arbitrary graph in terms of forbidden substructures, which we call k-path obstacles, and OCNs on a d-dimensional lattice, improving earlier results by determining the minimum energy up to a constant factor for every d ≥ 2. Results extend our capabilities in environmental statistical mechanics. [ABSTRACT FROM AUTHOR]

Published
2018
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298. The potential impact of case-area targeted interventions in response to cholera outbreaks: A modeling study.

Author

Finger, Flavio, Bertuzzo, Enrico, Luquero, Francisco J., Naibei, Nathan, Touré, Brahima, Allan, Maya, Porten, Klaudia, Lessler, Justin, Rinaldo, Andrea, and Azman, Andrew S.

Subjects
PREVENTION of cholera, CHOLERA vaccines, SANITATION, ANTIBIOTICS, VIBRIO cholerae, CHOLERA treatment, WATER supply, CHOLERA, COMPARATIVE studies, COMPUTER simulation, DISEASE outbreaks, HEALTH planning, MATHEMATICAL models, RESEARCH methodology, MEDICAL needs assessment, MEDICAL cooperation, POPULATION geography, RESEARCH, THEORY, EVALUATION research, SOCIAL services case management, THERAPEUTICS, STANDARDS
Abstract

Background: Cholera prevention and control interventions targeted to neighbors of cholera cases (case-area targeted interventions [CATIs]), including improved water, sanitation, and hygiene, oral cholera vaccine (OCV), and prophylactic antibiotics, may be able to efficiently avert cholera cases and deaths while saving scarce resources during epidemics. Efforts to quickly target interventions to neighbors of cases have been made in recent outbreaks, but little empirical evidence related to the effectiveness, efficiency, or ideal design of this approach exists. Here, we aim to provide practical guidance on how CATIs might be used by exploring key determinants of intervention impact, including the mix of interventions, "ring" size, and timing, in simulated cholera epidemics fit to data from an urban cholera epidemic in Africa.Methods and Findings: We developed a micro-simulation model and calibrated it to both the epidemic curve and the small-scale spatiotemporal clustering pattern of case households from a large 2011 cholera outbreak in N'Djamena, Chad (4,352 reported cases over 232 days), and explored the potential impact of CATIs in simulated epidemics. CATIs were implemented with realistic logistical delays after cases presented for care using different combinations of prophylactic antibiotics, OCV, and/or point-of-use water treatment (POUWT) starting at different points during the epidemics and targeting rings of various radii around incident case households. Our findings suggest that CATIs shorten the duration of epidemics and are more resource-efficient than mass campaigns. OCV was predicted to be the most effective single intervention, followed by POUWT and antibiotics. CATIs with OCV started early in an epidemic focusing on a 100-m radius around case households were estimated to shorten epidemics by 68% (IQR 62% to 72%), with an 81% (IQR 69% to 87%) reduction in cases compared to uncontrolled epidemics. These same targeted interventions with OCV led to a 44-fold (IQR 27 to 78) reduction in the number of people needed to target to avert a single case of cholera, compared to mass campaigns in high-cholera-risk neighborhoods. The optimal radius to target around incident case households differed by intervention type, with antibiotics having an optimal radius of 30 m to 45 m compared to 70 m to 100 m for OCV and POUWT. Adding POUWT or antibiotics to OCV provided only marginal impact and efficiency improvements. Starting CATIs early in an epidemic with OCV and POUWT targeting those within 100 m of an incident case household reduced epidemic durations by 70% (IQR 65% to 75%) and the number of cases by 82% (IQR 71% to 88%) compared to uncontrolled epidemics. CATIs used late in epidemics, even after the peak, were estimated to avert relatively few cases but substantially reduced the number of epidemic days (e.g., by 28% [IQR 15% to 45%] for OCV in a 100-m radius). While this study is based on a rigorous, data-driven approach, the relatively high uncertainty about the ways in which POUWT and antibiotic interventions reduce cholera risk, as well as the heterogeneity in outbreak dynamics from place to place, limits the precision and generalizability of our quantitative estimates.Conclusions: In this study, we found that CATIs using OCV, antibiotics, and water treatment interventions at an appropriate radius around cases could be an effective and efficient way to fight cholera epidemics. They can provide a complementary and efficient approach to mass intervention campaigns and may prove particularly useful during the initial phase of an outbreak, when there are few cases and few available resources, or in order to shorten the often protracted tails of cholera epidemics. [ABSTRACT FROM AUTHOR]

Published
2018
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299. Field migration rates of tidal meanders recapitulate fluvial morphodynamics.

Author

Finotello, Alvise, Ghinassi, Massimiliano, D'Alpaos, Andrea, Lanzoni, Stefano, Marani, Marco, and Rinaldo, Andrea

Subjects
REMOTE sensing, MEANDERING rivers, STRATIGRAPHIC geology, SEDIMENTARY structures, SUBMERGED lands
Abstract

The majority of tidal channels display marked meandering features. Despite their importance in oil-reservoir formation and tidal landscape morphology, questions remain on whether tidalmeander dynamics could be understood in terms of fluvial processes and theory. Key differences suggest otherwise, like the periodic reversal of landscape-forming tidal flows and the widely accepted empirical notion that tidal meanders are stable landscape features, in stark contrast with their migrating fluvial counterparts. On the contrary, here we show that, once properly normalized, observed migration rates of tidal and fluvial meanders are remarkably similar. Key to normalization is the role of tidal channel width that responds to the strong spatial gradients of landscape-forming flow rates and tidal prisms. We find that migration dynamics of tidal meanders agree with nonlinear theories for river meander evolution. Our results challenge the conventional view of tidal channels as stable landscape features and suggest that meandering tidal channels recapitulate many fluvial counterparts owing to large gradients of tidal prisms across meander wavelengths. [ABSTRACT FROM AUTHOR]

Published
2018
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300. River networks as ecological corridors: A coherent ecohydrological perspective.

Author

Rinaldo, Andrea, Gatto, Marino, and Rodriguez-Iturbe, Ignacio

Subjects
*ECOHYDROLOGY, *WATERBORNE infection, *SPECIES diversity, *ECOSYSTEM services, *HOST-parasite relationships
Abstract

This paper draws together several lines of argument to suggest that an ecohydrological framework, i.e. laboratory, field and theoretical approaches focused on hydrologic controls on biota, has contributed substantially to our understanding of the function of river networks as ecological corridors. Such function proves relevant to: the spatial ecology of species; population dynamics and biological invasions; the spread of waterborne disease. As examples, we describe metacommunity predictions of fish diversity patterns in the Mississippi–Missouri basin, geomorphic controls imposed by the fluvial landscape on elevational gradients of species’ richness, the zebra mussel invasion of the same Mississippi–Missouri river system, and the spread of proliferative kidney disease in salmonid fish. We conclude that spatial descriptions of ecological processes in the fluvial landscape, constrained by their specific hydrologic and ecological dynamics and by the ecosystem matrix for interactions, i.e. the directional dispersal embedded in fluvial and host/pathogen mobility networks, have already produced a remarkably broad range of significant results. Notable scientific and practical perspectives are thus open, in the authors’ view, to future developments in ecohydrologic research. [ABSTRACT FROM AUTHOR]

Published
2018
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