Search results for " ecological engineering"

showing 3 items of 3 documents

Letter to the editor regarding the article “Taking advantage of seagrass recovery potential to develop novel and effective meadow rehabilitation meth…

2020

Alagna et al. (2019) suggest new transplantation methods for Posidonia oceanica (Linnaeus) Delile, inspired by its natural recovery process after disturbance due to dredging operations for gas-pipelines. They observe that P. oceanica vegetative fragments naturally settled only on loose calcareous stones deployed to fill the trenches of the gas-pipeline. No recovery was noted on dead matte, sand and large calcarenitic boulders. Following a new pilot restoration project currently ongoing in the same area, we demonstrate that natural recovery also occurs on dead matte. After examining other alternative transplantation methods for P. oceanica, the Authors suggest using their "habitat enhancemen…

0106 biological sciences010501 environmental sciencesAquatic ScienceOceanography01 natural sciencesDredgingMarine pollutionMediterranean SeaEcosystemEnvironmental Restoration and Remediation0105 earth and related environmental sciencesAlismatalesbiology010604 marine biology & hydrobiologyEnvironmental restorationbiology.organism_classificationEcological engineeringGrasslandPollutionFisheryTransplantationSeagrassHabitatPosidonia oceanicaRestoration Substrate Ecological engineering Posidonia oceanicaEnvironmental scienceMarine Pollution Bulletin
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The First Forty Years of a Technosol

2009

Abstract Soil formation is often a very slow process that requires thousands and even millions of years. Human influence, occasionally on a par with the function of climate or geological forces, can accelerate the process and can be viewed as a distinct soil forming factor. This paper describes a soil, Haplic Regosol, in which anthrosolization dominates the soil forming process. Man-made soils, Technosols, were stabilized with techniques of ecological engineering (crib walls). We measured the main soil properties and focused on the movement of water (the reduction of soil weight is the key factor in stabilizing these calcschists). The newly deposited debris, sheltered by anthropic intervent…

RegosolHydrologyecological engineering; speed of pedogenesis; tension infiltrometerecological engineeringspeed of pedogenesiscrib wall ecological engineering speed of pedogenesis tension infiltrometerSoil ScienceVegetationTechnosolDebrisNutrientPedogenesisSettore AGR/14 - Pedologiatension infiltrometerSoil waterEnvironmental scienceColonization
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Tracking management-related water quality alterations by phytoplankton assemblages in a tropical reservoir

2015

Water quality improvement and suppression of cyanobacterial blooms were planned in a eutrophic reservoir in southern China through ecological engineering measures from 2006 to 2011. This consisted in (i) a hydraulic resetting of inflows and outflows to increase the distance between inlet and outlet and the water residence time in the reservoir, and in (ii) the installation of floating frames hosting wetland vegetation to promote an alteration in phytoplankton composition. The environmental changes were therefore followed through the analysis of biotic responses in phytoplankton assemblages. Ecological engineering was effective in reducing phytoplankton total biomass, in re-establishing more…

0106 biological sciencesGeneralized additive modellingContext (language use)Aquatic Science010603 evolutionary biology01 natural sciencesMorpho-functional groupsC–S–R-modelSettore BIO/07 - ECOLOGIAPhytoplanktonRuderal speciesReservoirTrophic levelHydrologyPhytoplankton Morpho-functional groups C–S–R-model Generalized additive modelling Ecological engineering Reservoirgeographygeography.geographical_feature_categoryEcology010604 marine biology & hydrobiologyEcological engineeringInletEcological engineeringPhytoplanktonSettore BIO/03 - Botanica Ambientale E ApplicataEnvironmental scienceWater qualityEutrophication
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