亚洲av无码久久精品狠狠爱浪潮_高清精品一区二区三区_中文乱码字慕人妻熟女人妻_国产熟妇疯狂4p交在线播放_国产成人无码av

  • English
  • ???????
  • 中文
  • Fran?ais
  • Русский
  • Espa?ol

You are here

Landscape Salinity and Water Management for Improving Agricultural Productivity

IAEA-TECDOC-1916

English IAEA-TECDOC-1916 | 978-92-0-110520-2

194 pages | € 18.00 | Date published: 2020

Download PDF (7.38 MB)

Description

This publication is the outcome of an IAEA coordinated research project which addressed the problem of advancing salinity in irrigated soils of arid and semi-arid regions. Seven participating countries presented their studies focusing on alternative strategies and on integrated soil and water management practices. The publication informs readers on ways to improve crop productivity and sustainability through water and salinity management and defines approaches and technologies to assess and monitor soil water content and salinity. The test results of a new landscape soil moisture measuring tool (cosmic ray neutron sensor) for area-wide soil water measurements are also presented.

More Information on reusing IAEA copyright material.

Keywords

Soil, Water, Landscape, Salinity, Water Management, Agriculture, Productivity, Irrigation, Soil Water Storage, Salt, CRP, Coordinated Research Project, Food, Sustainability, Crop, Climate Change, Variability, Seawater, Intrusion, Coastal Region, Alternate Irrigation, Fresh Water, Salt Water, Saline Water, Wheat, Wheat Productivity, Salinization, Modelling, Soil Water, Salt Transport, Mulched Drip Irrigation, Comsol, Irrigated Wheat, Isotopic, Assessment, Salt Tolerance, Afforestation, Aquacrop, Barley, Efficiency, Saline Soil, Semi-Arid, Rice, Bangladesh, North China Plain, Vietnam, Mekong River Delta

Related publications

Stay in touch

Newsletter