Simulation of the Occurrence of Water Runoff in Soils Under Cultivation of Industrial Tomato Irrigated by Center Pivot

The tomato crop is almost totally irrigated. Among the irrigation methods utilized, mechanized sprinkling by center pivot stands out in tomato cultivation. A cultural treatment used in the tomato is the synchronization of the irrigations with the applications of the pesticides since with the leaf wetting the plants become unprotected and susceptible to diseases. In an attempt to reduce pesticide applications, growers seek to increase the time between irrigations, however, there are limitations, inherent to the soil and the irrigation system itself. The objective of this work was to simulate the soil water runoff tendency for irrigation management in the tomato crop, simulating three different types of soils (sandy, medium and clayey), three declines (0, 5 and 10%), and two types of deflectors (I-Wob and Spray). For this, four pivot sizes (25, 50, 75 and 100 ha) were defined and the methodology of maximum allowable precipitation estimated by the Newton-Raphson numerical technique was used to verify the different runoff conditions. The results showed that clayey soils are more susceptible when compared to medium and sandy soils, to surface runoff. Pivots of 100, 75 and 50 ha present greater susceptibility to runoff, with 25 ha being the best suitability for infiltration capacity in both soils. There is a percentage reduction of the maximum allowable rainfall of 40.74 % (±1.54) when the terrain is plan and pass to have 5% inclination and 22.99% (±1.47) between 5 and 10 %. I-Wob type deflectors have a better distribution of application, a consequently better relation with the maximum allowable precipitation intensity and less possibility of the surface runoff.

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IMPACT of Irrigation Management Strategy on Sizing of a Solar-powered Center Pivot Irrigation System

10.13031/aim.20131593003 ◽

2013 ◽

Author(s):

HAFIZ FAIZAN AHMED ◽

WARREN HELGASON

Keyword(s):

Management Strategy ◽

Irrigation System ◽

Irrigation Management ◽

Center Pivot ◽

Solar Powered

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A Study of an Algorithm for the Surface Temperature Forecast: From Road Ice Risk to Farmland Application

Applied Sciences ◽

10.3390/app10144952 ◽

2020 ◽

Vol 10 (14) ◽

pp. 4952

Author(s):

Maria Chiara Del Vecchio ◽

Alessandro Ceppi ◽

Chiara Corbari ◽

Giovanni Ravazzani ◽

Marco Mancini ◽

...

Keyword(s):

Surface Temperature ◽

Land Surface ◽

Energy Exchange ◽

Irrigation System ◽

Irrigation Management ◽

System Control ◽

The North ◽

Temperature Forecast ◽

Different Types ◽

Management Project

The presence of road ice has always been a key issue during winter months. A reliable forecast system capable of predicting the Land Surface Temperature (LST) and, consequently, its formation is one of the best strategies to operate towards reducing both vehicles accidents and waste of chemical solvents used for prevention which have a significant economic and environmental impact. Hence, the Meteo Expert Centre (MEC) has developed an algorithm for LST forecasts able to issue ice risk warnings as well. This algorithm operationally works every day in real-time and it is here tested, first, on a paved area of the Pedemontana Lombarda motorway and the Milano Linate airport airstrip, and, afterwards, since the LST plays a crucial role in understanding phenomena of energy exchange between soil, vegetation, and atmosphere, its knowledge and prediction becomes relevant also for other purposes such as agricultural management and irrigation system control, further experiments are carried out over two agricultural fields, one in the North and the other in the South of Italy during the SIM (Smart Irrigation Management) project. All LST analyses showed encouraging results with reasonable high values of statistical scores, in both applications on asphalted and different vegetated terrains, demonstrating that the developed algorithm has a high versatility even on completely different types of surfaces, and it can be applied as a valid tool for road ice risk warnings too.

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DESEMPENHO DO SISTEMA DE IRRIGAÇÃO POR ASPERSÃO, TIPO PIVÔ CENTRAL REBOCÁVEL.

Irriga ◽

10.15809/irriga.2009v14n4p481-491 ◽

2009 ◽

Vol 14 (4) ◽

pp. 481-491

Author(s):

José Dantas Neto ◽

Jonas Carlos Santino Silva ◽

Maria Salludeladia Sobral de Farias ◽

Carlos Henrique de Azevedo de Farias ◽

Carlos Alberto Vieira de Azevedo

Keyword(s):

Irrigation System ◽

Irrigation Management ◽

Sprinkler Irrigation ◽

Mean Value ◽

Low Flow ◽

Applied Water ◽

Municipal District ◽

Center Pivot ◽

System 2 ◽

The Mean

DESEMPENHO DO SISTEMA DE IRRIGAÇÃO POR ASPERSÃO, TIPO PIVÔ CENTRAL REBOCÁVEL. José Dantas Neto; Jonas Carlos Santino Silva; Maria Sallydelâdia Sobral de Farias; Carlos Henrique de Azevedo de Farias; Carlos Alberto Vieira de Azevedo.Departamento de Engenharia Agrícola, Universidade Federal de Campina Grande, Campina Grande, PB, [email protected] 1 RESUMO O objetivo deste trabalho foi avaliar a performance de um pivô central rebocável em nível de campo, na Fazenda Capim, localizada no município de Capim-PB. Os resultados da avaliação do equipamento nas três bases estudada levaram a concluir que: o equipamento apresentou bons resultados quando analisado como um todo para as base, constatou-se problemas de uniformidade e de eficiência em alguns setores quando a análise foi feita por raio individualmente, indicando setores com déficit e outros com excesso de água, o equipamento apresentou seus piores resultados quando foi avaliado na base 5, verificou-se que existe uma dispersão das lâminas de água aplicadas em relação ao valor médio, em todas as bases estudadas, as pressões de entrada do pivô nas bases, 4 e 5 estão muito abaixo da pressão recomendada o que resultou numa baixa vazão nestas bases. UNITERMOS: irrigação, manejo, variabilidade. DANTAS NETO, J.; SILVA, J. C. S.; FARIAS, M. S. S. de; FARIAS, C. HENRIQUE de A. de; AZEVEDO, C. A. V. de. PERFORMANCE OF TOWABLE CENTER PIVOT TYPE SPRINKLER IRRIGATION SYSTEM 2 ABSTRACT The objective of this work was to evaluate the performance of a towable pivot center in the field on Fazenda Capim in the municipal district of Capim-PB. The results of the equipment evaluation of the three studied bases showed that the equipment presented good results when analyzed as a whole for them. Uniformity and efficiency problems in some sections were analyzed when the analysis was individually made by ratio, indicating sections with deficit and other with excess of water. The equipment presented their worst results when it was evaluated in base 5. It was verified a dispersion of the applied water sheets in relation to the mean value, in all studied bases. The pressures on pivot in bases 4 and 5 are a lot below the recommended pressure and resulted in low flow in these bases. KEYWORDS: irrigation, management, variability

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Uphoff Norman, Priti Ramamurthy, and Roy Steiner. Managing Irrigation: Analysing and Improving the Performance of Bureaucracies. New Delhi/Newbury Park/London: Sage Publications. 1991. Hardbound. Price not given.

The Pakistan Development Review ◽

10.30541/v32i2pp.226-228 ◽

1993 ◽

Vol 32 (2) ◽

pp. 226-228

Author(s):

Zakir Hussain

Keyword(s):

Water Distribution ◽

Irrigation System ◽

Irrigation Management ◽

Performance Criterion ◽

New Delhi ◽

Irrigation Performance ◽

Factors Affecting ◽

Wide Range ◽

Resource Mobilisation ◽

Management Issues

The book; under review provides a valuable account of the issues and factors in managing the irrigation system, and presents a lucid and thorough discussion on the performance of the irrigation bureaucracies. It comprises two parts: the first outlines the factors affecting irrigation performance under a wide range of topics in the first five chapters. In Chapter One, the authors have attempted to assess the performance of the irrigation bureaucracies, conceptualise irrigation management issues, and build an empirical base for analysis while drawing upon the experience of ten country cases in Asia, Africa, and Latin America. The Second Chapter focuses on the variations in the management structures identified and the types of irrigation systems; and it defines the variables of the management structures. The activities and objectives of irrigation management are discussed in Chapter Three. The objectives include: greater production and productivity of irrigation projects; improved water distribution; reduction in conflicts; greater resource mobilisation and a sustained system performance. The authors also highlight the performance criterion in this chapter. They identify about six contextual factors which affect the objectives and the performance of irrigation, which are discussed in detail in Chapter Four. In Chapter Five, some organisational variables, which would lead to improvements in irrigation, are examined.

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CONSTRUCTING A DEMONSTRATION VEGETABLE GARDEN

HortScience ◽

10.21273/hortsci.27.6.671f ◽

1992 ◽

Vol 27 (6) ◽

pp. 671f-671

Author(s):

M. Marutani ◽

R. Quitugua ◽

C. Simpson ◽

R. Crisostomo

Keyword(s):

Weed Control ◽

Cultural Practices ◽

Irrigation System ◽

Agricultural Science ◽

Drip Irrigation System ◽

Vegetable Crops ◽

University Campus ◽

Crop Cover ◽

Different Types ◽

The University

A demonstration vegetable garden was constructed for students in elementary, middle and high schools to expose them to agricultural science. On Charter Day, a University-wide celebration, students were invited to the garden on the University campus. The purpose of this project was twofold: (1) for participants to learn how to make a garden and (2) for visitors to see a variety of available crops and cultural techniques. Approximately 30 vegetable crops were grown. The garden also presented some cultural practices to improve plant development, which included weed control by solarization, mulching, a drip irrigation system, staking, shading and crop cover. Different types of compost bins were shown and various nitrogen-fixing legumes were displayed as useful hedge plants for the garden.

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Analyzing the impact of grazing and short-term irrigation management on soil mechanical strength of a volcanic ash soil under different types of pastures

Soil and Tillage Research ◽

10.1016/j.still.2021.105130 ◽

2021 ◽

Vol 213 ◽

pp. 105130

Author(s):

Dorota Dec ◽

Sebastián Bravo ◽

Rainer Horn ◽

Daniel Uteau ◽

Stephan Peth ◽

...

Keyword(s):

Mechanical Strength ◽

Volcanic Ash ◽

Irrigation Management ◽

Short Term ◽

Volcanic Ash Soil ◽

Different Types ◽

The Impact

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On the Applicability of “Provision-Appropriation” Theory to Irrigation Management: An Analysis Based on Institutional Change in the Dongping Irrigation Area

The China Nonprofit Review ◽

10.1163/187650910x12605098379094 ◽

2010 ◽

Vol 2 (1) ◽

pp. 83-99

Author(s):

Chen Jing ◽

Kan Shizuan ◽

Tong Zhihui

Keyword(s):

Institutional Change ◽

Irrigation System ◽

Irrigation Management ◽

Historical Research ◽

Institutional Changes ◽

Irrigation Systems ◽

Irrigation Area ◽

Site Investigations ◽

Current State ◽

System Sustainability

AbstractThis paper, based on historical research on irrigation administration in the Dongping area and on-site investigations into its current state, explores the benefits and problems produced by two institutional changes. As a common pool resource situation, irrigation systems’ “provision” and “appropriation” are two separate issues; any institutional change must thus offer two different solutions. The study concludes that the participatory changes undertaken in the Dongping irrigation area failed, in the end, to resolve the problem of irrigation system sustainability. In particular, it proved difficult for collective action to take place around provision, which led to difficulties in operating the irrigation system.

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Use of geographic information systems and remote sensing as automated tool for variable rate irrigation prescriptions

10.32469/10355/79549 ◽

2019 ◽

Author(s):

◽

Anh Thi Tuan Nguyen

Keyword(s):

Remote Sensing ◽

Real Time ◽

Regression Models ◽

Field Data ◽

Irrigation Management ◽

Irrigation Scheduling ◽

Crop Growth ◽

Variable Rate ◽

Water Application ◽

Center Pivot

[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT REQUEST OF AUTHOR.] Economic as well as water shortage pressure on agricultural use of water has placed added emphasis on efficient irrigation management. Center pivot technology has made great improvement with variable rate irrigation (VRI) technology to vary water application spatially and temporally to maximize the economic and environmental return. Proper management of VRI systems depends on correctly matching the pivot application to specific field temporal and areal conditions. There is need for a tool to accurately and inexpensively define dynamic management zones, to sense within-field variability in real time, and control variable rate water application so that producers are more willing to adopt and utilize the advantages of VRI systems. This study included tests of the center pivot system uniformity performance in 2014 at Delta Research Center in Portageville, MO. The goal of this research was to develop MOPivot software with an algorithm to determine unique management areas under center pivot systems based on system design and limitations. The MOPivot tool automates prescriptions for VRI center pivot based on non-uniform water needs while avoiding potential runoff and deep percolation. The software was validated for use in real-time irrigation management in 2018 for VRI control system of a Valley 8000 center pivot planted to corn. The water balance model was used to manage irrigation scheduling. Field data, together with soil moisture sensor measurement of soil water content, were used to develop the regression model of remote sensing-based crop coefficient (Kc). Remote sensing vegetation index in conjunction with GDD and crop growth stages in regression models showed high correlation with Kc. Validation of those regression models was done using Centralia, MO, field data in 2016. The MOPivot successfully created prescriptions to match system capacity of the management zone based on system limitations for center pivot management. Along with GIS data sources, MOPivot effectively provides readily available graphical prescription maps, which can be edited and directly uploaded to a center pivot control panel. The modeled Kc compared well with FAO Kc. By combining GDD and crop growth in the models, these models would account for local weather conditions and stage of crop during growing season as time index in estimating Kc. These models with Fraction of growth (FrG) and cumulative growing degree days (cGDD) had a higher coefficient of efficiency, higher Nash-Sutcliffe coefficient of efficiency and higher Willmott index of agreement. Future work should include improvement in the MOPivot software with different crops and aerial remote sensing imagery to generate dynamic prescriptions during the season to support irrigation scheduling for real-time monitoring of field conditions.

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