Soil moisture dynamics modeling considering multi-layer root zone

Kumar, Rohitashw; Shankar, Vijay; Jat, Mahesh Kumar

doi:10.2166/wst.2013.054

Cited by 5 publications

(6 citation statements)

References 25 publications

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“…The variation of moisture depletion at different depth was also determined. It is observed that the maximum depletion of moisture takes place at the top 16 cm layers of soil and is considerably less in the lower layers (Kumar et al 2013a). Similar trend was observed over the entire study period.…”

Section: Moisture Depletionsupporting

confidence: 82%

“…The results of moisture depletion are shown in Fig 1 for the period of 640-805 and 670-685 DAP. It is evident from the Fig 1 that there is minimum depletion of moisture in the initial months of the study period due to lesser plant canopy (Shankar et al 2012, Kumar et al 2013a. At the development stage of plant there is a considerable increase in the moisture depletion as the temperature has started rising and the plant has attained maturity stage.…”

Section: Moisture Depletionmentioning

confidence: 92%

“…Water is most precious gift of nature, essential for human and animal life (Clothier 1990, Coelho and Or 1996, 1999 and plays an important role for plant growth (Richards and Wadleigh 1952, Wesseling and Feddes 2006, Kumar et al 2012, Kumar et al 2013a. Water resources play an important role as a catalyst for the economic development of a nation.…”

mentioning

confidence: 99%

“…Drip irrigation is one of the advance irrigation methods and apply required amount of water directly in the root zone at frequent intervals which may save sufficient quantity of water as compared to surface method of irrigation (Kumar et al 2014a). Deficiency of water in the root zone of soil results in reduced plant growth and affects the crop yield, thus objective of irrigation is to maintain adequate moisture content in the root zone, such that crop yield is not affected adversely (Green et al 2006, Kumar et al 2012, Kumar et al 2013aKumar et al 2014). Initial studies of the unsaturated (vadose) zone focused primarily on water supply studies, inspired in part by attempt to optimally manage the root zone of agricultural soils for maximum crop production temperature, humidity, rainfall, sunshine and wind speed was collected from the Division of Agronomy, other data was determined from the empirical formulas given in the FAO-56 manual.…”

mentioning

confidence: 99%

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Moisture dynamics and irrigation modelling in apple (Malus domestica) trees using CROPWAT model in temperate region of India

2018

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A quantitative study of water transport in the soil-root system is an important aspect for optimum irrigation scheduling and sound water management. The present study was conducted for high density apple (Malus domestica Borkh.) (var. Silver Spur) orchard in temperate region of Kashmir valley, India to evaluate moisture uptake/depletion at different depth of root zone.Soil moisture depletion at different root depth was determine dusing CROPWAT model. The maximum depletion of moisture took place in the top 16 cm layer of crop root zone. The crop coefficient values were modified for local agro-climatic conditions using the procedure outlined by FAO. The Modified crop coefficient (Kc) value for different growth stages of Kc ini, Kc mid and Kc end were found 0.5, 1.13 and 0.76, respectively. The crop water requirement was determined using CROPWAT model and compared with field observed value.The results showed that the model predicted the crop evapotranspiration with reasonable error statistics with RMSE; 0.19 mm/ day, R2; 0.97 and percent error; 10.90. The CROPWAT model can be used for estimating crop water requirement for high density apple crop for irrigation scheduling.

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Section: Moisture Depletionsupporting

confidence: 82%

Section: Moisture Depletionmentioning

confidence: 92%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Moisture dynamics and irrigation modelling in apple (Malus domestica) trees using CROPWAT model in temperate region of India

2018

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“…A better understanding of Root Water Uptake (RWU) is essential for improving irrigation and fertigation scheduling in drip irrigation (Green and Clothier, 1999). The RWU is a dynamic process influenced by many factors such as plant characteristics, cropping pattern, water content availability, soil hydraulic properties and environmental conditions respectively (Kumar et al, 2013). Generally, it is difficult to obtain RWU directly from the field experiments.…”

Section: Introductionmentioning

confidence: 99%

A Dynamic Variation of Root Water Uptake in Drip Irrigated Paddy

Angaleeswari¹,

Tjprc²

2019

IJASR

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Research on drip irrigated paddy is gaining importance due to the reason that, it reduces inefficient use of water and nutrients by optimum irrigation and fertigation scheduling. Modelling of root zone process is essential for drip irrigation management. Spatial and temporal changes in Root Water Uptake (RWU) distribution patterns is needed for estimating root zone parameters and also for obtaining average RWU location. It is useful for developing guidelines for soil water sensor placement. It is extremely challenging to measure RWU distribution directly from the field. In the present work inverse modelling was developed by solving Richards' equation inversely for estimating root water uptake. Spatial and temporal variation of volumetric water content was measured at the root zone using Time Domain Reflectometry (TDR) sensors. The dynamic variation of Root Water Uptake Distribution (UD) patterns in drip irrigated paddy was evaluated at 15 minutes interval. Temporal changes in the location of the average root water uptake and volumetric water content was evaluated for a period of 24 hours. The UD pattern during day time is completely different from the UD pattern at night. The changes in UD patterns are due to soil moisture content availability and root behaviours. It is noted that during day time the maximum RWU was observed between dripper and plant locations and at night time the RWU was observed away from the dripper location. The results from this work indicate that the root zoneparameters are needed to be found out separately for day and night.

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Ecohydrological modeling of irrigation scheduling of maize using time series analysis in the temperate region of Kashmir valley, India

et al. 2015

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Water, one of the most crucial inputs of irrigation, should be utilized judiciously to identify appropriate strategies for planning and management of irrigated farmland. The present study was conducted for the crop maize (Zea mays), grown mainly in the rabi-season (July–October), to evaluate the irrigation water requirements in the temperate region of Kashmir Valley, India during the last 20 years from 1993 to 2012. The crop evapotranspiration values have been determined using the universally accepted Penman–Monteith method. The reference evapotranspiration varied by 93 mm, which accounts for variation of 20.12% for a temperature change of 1.61 °C. Net irrigation requirement of the crop is influenced greatly due to the possible effect of climate change, observed through varying temperature in different crop periods. The number of irrigations required in sandy loam soil is much more than the required number of irrigations in clay loam soil. The irrigation scheduling was analyzed using meteorological data through FAO-56 Penman–Monteith method as a guiding force for irrigation water management in order to save water and increase crop water use efficiency. The time series analysis reveals that maize crop in sandy loam and clay loam needs to be advanced by 5 days and 4 days in order to adapt for the climate change.

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Soil moisture dynamics modeling considering multi-layer root zone

Cited by 5 publications

References 25 publications

Moisture dynamics and irrigation modelling in apple (Malus domestica) trees using CROPWAT model in temperate region of India

Moisture dynamics and irrigation modelling in apple (Malus domestica) trees using CROPWAT model in temperate region of India

A Dynamic Variation of Root Water Uptake in Drip Irrigated Paddy

Ecohydrological modeling of irrigation scheduling of maize using time series analysis in the temperate region of Kashmir valley, India

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