E. Kitta scite author profile

The sustainability of irrigated agriculture is threatening due to adverse climate change, given future projections that every one in four people on Earth might be suffering from extreme water scarcity by the year 2025. Pressurized irrigation systems and appropriate irrigation schedules can increase water productivity (i.e., product yield per unit volume of water consumed by the crop) and reduce the evaporative or system loss of water as opposed to traditional surface irrigation methods. However, in water-scarce countries, irrigation management frequently becomes a complex task. Deficit irrigation and the use of non-conventional water resources (e.g., wastewater, brackish groundwater) has been adopted in many cases as part of a climate change mitigation measures to tackle the water poverty issue. Protected cultivation systems such as greenhouses or screenhouses equipped with artificial intelligence systems present another sustainable option for improving water productivity and may help to alleviate water scarcity in these countries. This article presents a comprehensive review of the literature, which deals with sustainable irrigation for open-field and protected cultivation systems under the impact of climatic change in vulnerable areas, including the Mediterranean region.

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Effects on microclimate, crop production and quality of a tomato crop grown under shade nets

Kittas

Katsoulas

Rigakis

et al. 2012

The Journal of Horticultural Science and Biotechnology

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Extension and evaluation of a model for automatic drainage solution management in tomato crops grown in semi-closed hydroponic systems

Katsoulas

Savvas

Kitta

et al. 2015

Computers and Electronics in Agriculture

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Effects of cover optical properties on screenhouse radiative environment and sweet pepper productivity

Kitta¹,

Baille²,

Katsoulas³

et al. 2014

Biosystems Engineering

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E. Kitta

Implementing Sustainable Irrigation in Water-Scarce Regions under the Impact of Climate Change

Effects on microclimate, crop production and quality of a tomato crop grown under shade nets

Extension and evaluation of a model for automatic drainage solution management in tomato crops grown in semi-closed hydroponic systems

Effects of cover optical properties on screenhouse radiative environment and sweet pepper productivity

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