On-farm labour allocation and irrigation water use: case studies among smallholder systems in arid regions

Norman, W. Ray; McCann, I.; Al-Ghafri, Abdullah Saif

doi:10.1007/s10795-007-9038-y

Cited by 8 publications

(4 citation statements)

References 11 publications

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“…Farm‐level assessment is sometimes extended to include socio‐economic, environmental and organizational issues (e.g. Clemmens et al , ; Bekele and Tilahun, ; Norman et al , ).…”

Section: Introductionmentioning

confidence: 99%

Farmers' Practices and Community Management of Irrigation: Why Do They Not Match in Fatnassa Oasis?

Ghazouani

Marlet

Mekki

et al. 2011

Irrigation and Drainage

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Community-managed irrigation systems are commonly faced with problems of low system-level performance. A comprehensive survey was undertaken to assess and quantify the causes of the low irrigation performance in a community-managed oasis in southern Tunisia. At the irrigation system level, results showed that irrigation intervals were double those that had been expected (19-21 days). The main cause was inappropriate farmers' practices at field level where the irrigation duration was almost twice the expected 10 h ha -1. The extension of date palm plantation and technical dysfunctions played a less important role as they were counterbalanced by cancellation of irrigation in some plots. At the field scale, excessively long irrigation duration resulted from the joint effects of small fields, poor maintenance of field-level water delivery systems, uncontrolled night irrigation events and low farmer commitment. This situation emphasizes the question of efficiency and sustainability of irrigation systems when farmers subvert collective rules. Further, the situation raises the question of equity among farmers which hinders their support for the water users' association and the strict application of water allocation rules. These findings should help identify an appropriate approach and lead to positive changes in the management of community irrigation systems.

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“…Farm‐level assessment is sometimes extended to include socio‐economic, environmental and organizational issues (e.g. Clemmens et al , ; Bekele and Tilahun, ; Norman et al , ).…”

Section: Introductionmentioning

confidence: 99%

Farmers' Practices and Community Management of Irrigation: Why Do They Not Match in Fatnassa Oasis?

Ghazouani

Marlet

Mekki

et al. 2011

Irrigation and Drainage

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“…Soil type plays a significant role in the performance and management of aflaj systems [38]. It directly affects water movement, infiltration rates and water-holding capacity within the underground channels.…”

Section: Soil Typesmentioning

confidence: 99%

Assessing the environmental factors affecting the sustainability of Aini Falaj system

Al-Kindi

2024

PLoS ONE

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This study investigates the spatial distribution patterns and environmental factors influencing the Aini Falaj system in a specific study area. The research findings are presented through the lens of the following four categories: collinearity diagnostics, spatial autocorrelation analysis, kernel density (KD) findings, and multivariate geographically weighted regression (MGWR) analysis. The collinearity diagnostics were applied to examine the interrelationships among 18 independent environmental variables. The results indicate the absence of significant multicollinearity concerns, with most variables showing values below the critical threshold of five for variance inflation factors (VIFs). The selected variables indicate minimal intercorrelation, suggesting that researchers should be confident utilizing them in subsequent modelling or regression analyses. A spatial autocorrelation analysis using Moran’s Index revealed positive spatial autocorrelation and significant clustering patterns in the distribution of live and non-functional Aini Falajs. High concentrations of live or dead Falajs tended to be surrounded by neighbouring areas with similar characteristics. These findings provide insights into the ecological preferences and habitat associations of Aini Falajs, thereby aiding conservation strategies and targeted studies. The kernel density (KD) analysis depicted distribution patterns of live and dry Aini Falajs through hotspots and cold spots. Specific regions exhibited high-density areas of live Falajs, indicating favourable environmental conditions or historical factors contributing to their concentrated distribution. Identifying these high-density zones can enhance our understanding of the spatial patterns and potential factors influencing the prevalence and sustainability of Aini Falajs. The multivariate geographically weighted regression (MGWR) models revealed strong associations between the live or dead status of Aini Falajs and environmental factors. The precipitation, topographic wetness index (TWI), aspect and slope exerted positive impacts on the live status, while evaporation, solar radiation, distance to drains and drain density exerted negative influences. Similar associations were observed for the dead status, emphasising the importance of controlling evaporation, shading mechanisms, proper drainage planning and sustainable land-use practices. This study provides valuable insights into the spatial distributions and factors influencing the live and dead status of Aini Falajs, thereby contributing to our understanding of their ecological dynamics and guiding conservation efforts and management strategies.

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“…In order to rehabilitate traditional systems, a joint effort is needed whereby potentially unsustainable modern technologies, such as pumping, and traditional groundwater extraction methods based on gravity, such as qanats, are integrated in a national water management plan that balances and recharges groundwater levels. The Government of Oman has started to implement this kind of policy over the past decades and this has resulted in 35% of its total national agricultural water supply being provided by aflaj (qanats), and heavy investment of the national institutions to maintain and conserve Oman's traditional water management techniques (Ray Norman et al 2008, Al-Ghafri 2011.…”

Section: Traditional Water Management Systemsmentioning

confidence: 99%

Traditional irrigation techniques in MENA with focus on Tunisia

Jebari

Berndtsson

Hashemi

et al. 2016

Hydrological Sciences Journal

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Due to their efficiency, revitalized traditional techniques for irrigation management of scarce water resources have been suggested as a way to at least partially cope with the present water crises in the Middle East. A better irrigation management includes re-using treated wastewater in agriculture. Treated wastewater should also be used in industrial processes, thus contributing to a more efficient overall water management. However, the most important change leading to better water management is improving water efficiency in agricultural irrigation. Traditional water management techniques have an important role in many Middle East and North African (MENA) countries. Besides bringing more water to a thirsty population, they can also contribute to the societal awareness, and recognition of the great diversity of cultural and social values water has to human civilization. ARTICLE HISTORY

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On-farm labour allocation and irrigation water use: case studies among smallholder systems in arid regions

Cited by 8 publications

References 11 publications

Farmers' Practices and Community Management of Irrigation: Why Do They Not Match in Fatnassa Oasis?

Farmers' Practices and Community Management of Irrigation: Why Do They Not Match in Fatnassa Oasis?

Assessing the environmental factors affecting the sustainability of Aini Falaj system

Traditional irrigation techniques in MENA with focus on Tunisia

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