0000000000625626

AUTHOR

Patricia M. Saco

showing 2 related works from this author

The way forward : Can connectivity be useful to design better measuring and modelling schemes for water and sediment dynamics?

2018

For many years, scientists have tried to understand, describe and quantify water and sediment fluxes, with associated substances like pollutants, at multiple scales. In the past two decades, a new concept called connectivity has been used by Earth Scientists as a means to describe and quantify the influences on the fluxes of water and sediment on different scales: aggregate, pedon, location on the slope, slope, watershed, and basin. A better understanding of connectivity can enhance our comprehension of landscape processes and provide a basis for the development of better measurement and modelling approaches, further leading to a better potential for implementing this concept as a managemen…

Environmental EngineeringWatershed010504 meteorology & atmospheric sciencesComputer science0208 environmental biotechnologyLand managementClimate change02 engineering and technologyStructural basin01 natural sciencesCatchment systemsEnvironmental ChemistryWaste Management and Disposal0105 earth and related environmental sciencesConnectivityWIMEKBoundary conditionsbusiness.industryEnvironmental resource managementAggregate (data warehouse)StakeholderSedimentBodemfysica en LandbeheerPE&RCPollution020801 environmental engineeringSystem dynamicsManagementPollutant transportSoil Physics and Land ManagementCo-evolutionMeasuring and modelling approachesbusinessFire effectsAgricultural impactsScience of the Total Environment
researchProduct

Using hydrological connectivity to detect transitions and degradation thresholds: Applications to dryland systems

2020

In arid and semi-arid ecosystems, shortage of water can trigger changes in landscapes’ structures and function leading to degradation and desertification. Hydrological connectivity is a useful framework for understanding water redistribution and scaling issues associated with runoff and sediment production, since human and/or natural disturbances alter surface water availability and pathways increasing/decreasing connectivity. In this paper, we illustrate the use of the connectivity framework for several examples of dryland systems that are analysed at a variety of spatial and temporal scales. In doing so, we draw particular attention to the analysis of coevolution of system structures and …

010504 meteorology & atmospheric sciencesWater en Landgebruikmedia_common.quotation_subjectWetlandSemi-arid environments01 natural sciencesSoilBodemSoil Water and Land UseTemporal scales0105 earth and related environmental sciencesEarth-Surface Processesmedia_commongeographygeography.geographical_feature_categoryWIMEKbusiness.industryWater and Land UseEnvironmental resource management04 agricultural and veterinary sciencesVegetation15. Life on landBodemfysica en LandbeheerPE&RCHydrological connectivityAridLandscape evolutionGeoecologyBodem Water en LandgebruikSoil Physics and Land ManagementDesertification040103 agronomy & agricultureLand degradationErosion0401 agriculture forestry and fisheriesEnvironmental scienceLand degradationbusinessSurface runoff
researchProduct