00969cam0 2200277 450 E60020003319820210121083506.020080117d1976 |||||ita|0103 baitaIT<<Gli >>stili di direzioneRobert R. BlakeJane S. MoutonMilanoEtas Libri1976280 p.21 cmDirezione Organizzazione Economia d'Impresa66001LAEC000244562001 *Direzione Organizzazione Economia d'Impresa66Blake, Robert R.A60020004585507050231Mouton, Jane S.A600200045856070ITUNISOB20210121RICAUNISOBUNISOB30023580E600200033198M 102 Monografia moderna SBNM300000161Si23580Acquistopregresso2UNISOBUNISOB20080117100149.020190618103433.0SpinosaStili di direzione424788UNISOB01792nam 2200373 450 991068843080332120230701054444.0(CKB)5400000000044910(PPN)249221713(NjHacI)995400000000044910(EXLCZ)99540000000004491020230701d2019 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierSoil Erosion Rainfall Erosivity and Risk Assessment /Vlassios Hrissanthou, Konstantinos Kaffas, editorsLondon :IntechOpen,2019.1 online resource (134 pages)1-78985-581-0 In the first section of this book on soil erosion, an introduction to the soil erosion problem is presented. In the first part of the second section, rainfall erosivity is estimated on the basis of pluviograph records and cumulative rainfall depths by means of empirical equations and machine learning methods. In the second part of the second section, a physically-based, hydrodynamic, finite element model is described for the computation of surface runoff and channel flows. In the first part of the third section, the soil erosion risk is assessed in two different basins. In the second part of the third section, the soil erosion risk management in a basin is evaluated, and the delimitation of the areas requiring priority planning is achieved.Soil Erosion Soil scienceSoil science.631.4 Kaffas KonstantinosHrissanthou VlassiosNjHacINjHaclBOOK9910688430803321Soil erosion372696UNINA