Analysis of Water Seepage Through Earthen Structures Using the Particulate Approach

Jeyisanker, Kalyani

03 November 2008

A particulate model is developed to analyze the effects of steady state and transient seepage of water through a randomly-packed coarse-grained soil as an improvement to conventional seepage analysis based on continuum models. In the new model the soil skeleton and pore water are volumetrically coupled. In the first phase of the study, the concept of relative density has been used to define different compaction levels of the soil layers of a completely saturated pavement filter system and observe the seepage response to compaction. First, Monte-Carlo simulation is used to randomly pack discrete spherical particles from a specified Particle Size Distribution (PSD) to achieve a desired relative density based on the theoretical minimum and maximum void ratios. Then, a water pressure gradient is applied across one two-layer filter unit to trigger water seepage. The pore water motion is idealized using Navier Stokes (NS) equations which also incorporate drag forces acting between the water and soil particles. The NS equations are discretized using finite differences and applied to discrete elements in a staggered, structured grid. The model predicted hydraulic conductivities are validated using widely used equations. The critical water velocities, hydraulic gradients and flow within the xi saturated soil layers are identified under both steady state and transient conditions. Significantly critical transient conditions seem to develop. In the second phase of the study the model is extended to analyze the confined flow through a partly saturated pavement layer and unconfined flow from a retention pond into the surrounding saturated granular soil medium. In partly saturated soil, the water porosity changes resulting from water flow is updated using the Soil Water Characteristics Curve (SWCC) of the soil. The results show how complete saturation develops due to water flow following the water porosity Vs pressure trend defined by the SWCC. Finally, the model is used to predict the gradual reduction in the water level of a retention pond and the location of the free-surface. The free-surface is determined by differentiating the wet and dry zones based on the Heaviside step function modified NS equations.

Navier Stokes Equations

Monte-Carlo Simulation

Volumetric Compatibility

Staggered Grid

Critical Localized Condition

Unsaturated

Soil Water Characteristic Curve

American Studies

Arts and Humanities

Evaporation and Heat-flux Aggregation in Heterogeneous Boreal Landscapes / Aggregering av avdunstning och värmeflöden i heterogena barrskogslandskap

Persson, Tony

January 2004

<p>The boreal forests represent 8 % of all forested areas on the earth and have a significant role in the control of greenhouse gases and an impact on global climate change. The main objective of this thesis is to increase the understanding of how evaporation and heat-flux processes in the boreal forest zone are affecting the regional and global climate.</p><p>A meteorological mesoscale model with an advanced land-surface parameterization has been utilized to study aggregation of fluxes of water vapour and heat. The model has been compared against four other methods for flux estimation in a southern boreal landscape. The results show that the mesoscale model is successfully reproducing 24-hour averages of fractionally weighted mast measurements of sensible and latent heat flux.</p><p>The model was also evaluated against in-situ observations of surface fluxes and other meteorological variables. The results reveal that a correct initialization of soil moisture is crucial to simulate a realistic partitioning of the sensible and latent heat fluxes. Significant differences in surface fluxes and friction velocities between two apparently similar forest sites indicate the need for careful assessment of areal representativity when comparing mesoscale model results with in-situ observations.</p><p>A parameterization for the absorption of solar radiation of high-latitude sparse forests was implemented and tested in the model that significantly improved the simulation of high wintertime midday sensible heat fluxes. A scheme for heat storage in vegetation was also implemented which improved the results, but the scheme needs further evaluation for high latitude forests.</p><p>Two commonly used strategies for the description of land-surface heterogeneity, the effective parameter approach and the mosaic approach, were tested in the mesoscale model against airborne observations of sensible and latent heat fluxes. The results show that the mosaic approach produces better results especially when small lakes are present in model grid-squares.</p> / <p>Norra halvklotets barrskogsbälte representerar 8 % av all skogsbeklädd mark på jorden och har stor betydelse för kontrollen av växthusgaser och påverkan på globala klimatförändringar. Syftet med denna avhandling är att öka förståelsen av hur avdunstning och värmeflöden i den boreala skogszonen påverkar klimatet regionalt och globalt.</p><p>En meteorologisk mesoskalemodell med en avancerad landyteparameterisering har använts för att studera aggregering av avdunstning och värmeflöden. Modellen jämfördes med fyra andra metoder för uppskattning av värmeflöden i den boreala skogszonens södra delar. Resultaten visade att mesoskalemodellen reproducerar 24-timmarsmedelvärden av sensibelt och latent värmeflöde från areellt viktade mastmätningar med bra resultat.</p><p>Modellen utvärderades även mot markbaserade mätningar av sensibelt och latent värme och andra meteorologiska variabler. Resultaten visar att en korrekt initialisering av markvatteninnehållet är avgörande för att simulera en realistisk uppdelning av de sensibla och latenta värmeflödena. Markanta skillnader i markyteflöden och friktionshastigheter mellan två liknande skogsmätstationer påvisar nödvändigheten av en noggrann bedömning av den areella representativiteten när man jämför resultat från mesoskalemodellen med markbaserade mätningar.</p><p>En parameterisering för absorption av solstrålning i glesa skogsbestånd på höga breddgrader infördes och testades i modellen vilket markant förbättrade simuleringen av de höga sensibla värmeflöden som observerats vid middagstid på vintern. Ett uttryck för att beskriva värmelagring i vegetationen infördes också vilket förbättrade resultaten, men uttrycket behöver vidare utvärdering för skogsbestånd på höga breddgrader.</p><p>Två ofta använda strategier för att beskriva markytans heterogenitet, effektiva parametermetoden och mosaikmetoden, testades i mesoskalemodellen mot flygburna observationer av sensibla och latenta värmeflöden. Resultaten visar att mosaikmetoden ger bättre resultat särskilt när mindre sjöar förekommer i modellrutorna.</p>

Hydrology

land-surface processes

heterogeneity

surface fluxes

soil-water content

high latitudes

snow

lakes

climate

mesoscale model

NOPEX

WINTEX

Hydrologi

Hydrology

Hydrologi

Evaporation and Heat-flux Aggregation in Heterogeneous Boreal Landscapes / Aggregering av avdunstning och värmeflöden i heterogena barrskogslandskap

Persson, Tony

January 2004

The boreal forests represent 8 % of all forested areas on the earth and have a significant role in the control of greenhouse gases and an impact on global climate change. The main objective of this thesis is to increase the understanding of how evaporation and heat-flux processes in the boreal forest zone are affecting the regional and global climate. A meteorological mesoscale model with an advanced land-surface parameterization has been utilized to study aggregation of fluxes of water vapour and heat. The model has been compared against four other methods for flux estimation in a southern boreal landscape. The results show that the mesoscale model is successfully reproducing 24-hour averages of fractionally weighted mast measurements of sensible and latent heat flux. The model was also evaluated against in-situ observations of surface fluxes and other meteorological variables. The results reveal that a correct initialization of soil moisture is crucial to simulate a realistic partitioning of the sensible and latent heat fluxes. Significant differences in surface fluxes and friction velocities between two apparently similar forest sites indicate the need for careful assessment of areal representativity when comparing mesoscale model results with in-situ observations. A parameterization for the absorption of solar radiation of high-latitude sparse forests was implemented and tested in the model that significantly improved the simulation of high wintertime midday sensible heat fluxes. A scheme for heat storage in vegetation was also implemented which improved the results, but the scheme needs further evaluation for high latitude forests. Two commonly used strategies for the description of land-surface heterogeneity, the effective parameter approach and the mosaic approach, were tested in the mesoscale model against airborne observations of sensible and latent heat fluxes. The results show that the mosaic approach produces better results especially when small lakes are present in model grid-squares. / Norra halvklotets barrskogsbälte representerar 8 % av all skogsbeklädd mark på jorden och har stor betydelse för kontrollen av växthusgaser och påverkan på globala klimatförändringar. Syftet med denna avhandling är att öka förståelsen av hur avdunstning och värmeflöden i den boreala skogszonen påverkar klimatet regionalt och globalt. En meteorologisk mesoskalemodell med en avancerad landyteparameterisering har använts för att studera aggregering av avdunstning och värmeflöden. Modellen jämfördes med fyra andra metoder för uppskattning av värmeflöden i den boreala skogszonens södra delar. Resultaten visade att mesoskalemodellen reproducerar 24-timmarsmedelvärden av sensibelt och latent värmeflöde från areellt viktade mastmätningar med bra resultat. Modellen utvärderades även mot markbaserade mätningar av sensibelt och latent värme och andra meteorologiska variabler. Resultaten visar att en korrekt initialisering av markvatteninnehållet är avgörande för att simulera en realistisk uppdelning av de sensibla och latenta värmeflödena. Markanta skillnader i markyteflöden och friktionshastigheter mellan två liknande skogsmätstationer påvisar nödvändigheten av en noggrann bedömning av den areella representativiteten när man jämför resultat från mesoskalemodellen med markbaserade mätningar. En parameterisering för absorption av solstrålning i glesa skogsbestånd på höga breddgrader infördes och testades i modellen vilket markant förbättrade simuleringen av de höga sensibla värmeflöden som observerats vid middagstid på vintern. Ett uttryck för att beskriva värmelagring i vegetationen infördes också vilket förbättrade resultaten, men uttrycket behöver vidare utvärdering för skogsbestånd på höga breddgrader. Två ofta använda strategier för att beskriva markytans heterogenitet, effektiva parametermetoden och mosaikmetoden, testades i mesoskalemodellen mot flygburna observationer av sensibla och latenta värmeflöden. Resultaten visar att mosaikmetoden ger bättre resultat särskilt när mindre sjöar förekommer i modellrutorna.

Hydrology

land-surface processes

heterogeneity

surface fluxes

soil-water content

high latitudes

snow

lakes

climate

mesoscale model

NOPEX

WINTEX

Hydrologi

Hydrology

Hydrologi

水～土連成計算を用いた砂杭拡径による砂地盤の締固めメカニズムの一考察

TAKAGI, Kenji, 野津, 光夫, NOZU, Mitsuo, 野田, 利弘, NODA, Toshihiro, 高稲, 敏浩, TAKAINE, Toshihiro, 高木, 健次

06 1900

No description available.

cam-clay model

finite element method

liquefaction

comparatively dense sand

soil improvement

sand compaction pile

soil-water coupled system

subloading yield surface concept

Infiltration and Drainage through Coarse Layered Soil: A Study of Natural and Reclaimed Soil Profiles in the Oil Sands Region, Alberta, Canada

2014 April 1900

Natural coarse textured soils comprise a significant portion (approximately 20%) of the area to be mined at Suncor, Syncrude (aurora mine), Albian/Shell, and CNRL mines in the Alberta’s oil sands (Macyk, 2006). Although similar in soil textural classifications, the undisturbed areas support a range of ecosite types which exhibit different moisture regimes, suggesting that there are natural mechanisms controlling the plant available water sufficient for forest development. The global objective of this study was to evaluate the potential for textural variability to enhance water storage in coarse textured soil. The observations of the infiltration and drainage behaviour of natural and reclaimed coarse-texture soils in this study have demonstrated that this potential exists and can be applied in reclamation design to achieve the ranges of soil water storage needed to establish different ecosites. Field based infiltration and drainage testing, pit excavation and sampling have been completed on 14 sites (7 natural and 7 reclaimed). Bulk saturated hydraulic conductivity and field capacity were estimated for each of the 14 sites based on the field test results. The observed transient water dynamics give an indication of the effect of layering on these material properties. Laboratory analysis of water content (650 samples), particle size (650 samples), water retention (35 samples), organic carbon (100 samples) as well as calibration of field instrumentation were completed on a large number of samples (approximate values shown in brackets above) across all sites. The laboratory analysis was used to characterize textural variability (mean and standard deviation of the particle diameter) for the layered sites and estimate the soil water retention curve (SWRC) relationships for the range of soil textures encountered at the study sites. Pedotransfer functions (PTFs) were used to investigate if there were significant differences in the residual sum of squares between estimated and measured SWRCs. The measured organic carbon was used to aid in estimating permanent wilting point (WP) used in the calculation of the available water holding capacity (AWHC) of all profiles. An investigation into the calibration of the moisture capacitance probe (MCP) was undertaken as part of a comparison of the measured and simulated volumetric water content (VWC) profiles. Water storage at the cessation of drainage was related to the soil texture and textural variability as measured in the laboratory. Sites with more textural variability generally stored more water for plant use. There appeared to be a limit to what can be considered ‘useful’ textural variability. If adjacent soil layers had too extreme a contrast in texture and therefore hydraulic conductivity, unstable/preferential flow (i.e. bypassing of some of the water and nutrients from plant roots) occurred. The total porosity calculated from field samples was often higher than the maximum measured VWC in each layer which may be indicative of one or more factors that resulted in less than full saturation being attained within the targeted 1 m depth of saturation during the test. Some of these factors include: errors in sampling leading to an overestimate of total porosity; lateral flow along textural interfaces; air entrapment within the rapidly advancing wetting front; unstable/preferential flow as a result of the high contrast in hydraulic conductivity (fine over coarse) between adjacent layers (i.e. Ks Ratio >20) or where tests were conducted on slopes (i.e. funnel flow). This latter case was common at the reclaimed sites. A modelling study of one uniform (SV10) and one layered (NLFH1) natural site was conducted. The models were built by incorporating soil properties of the layers in the various soil profiles as estimated from field and/or laboratory testing. This study offers a comparison between various PTFs and their ability to capture the soil-water storage/dynamics during infiltration and drainage testing. The Arya PTF gave a better estimation of the laboratory measured SWRCs. However, when modeling the measured infiltration and drainage testing for the relatively uniform site SV10, the Arya PTF and Modified Kovacs (MK) PTF performed similarly. The Arya PTF performing slightly better for the infiltration phase and the MK PTF performing slightly better for the drainage phase. Both PTFs gave a reasonable estimation of water storage but the MK PTF gave a better estimation of the water storage with time as compared to the Arya PTF. For the highly layered site NLFH1, neither model performed well. The Arya PTF gave a substantially better estimation of the infiltration phase and gave the better estimation of the magnitude of water storage with time, the MK PTF performed marginally better for the drainage phase and gave a better estimation of the shape of the water storage with time. Generally, the study showed that the replication of the profile water storage requirements for the layered natural ecosites (‘b’ and ‘d’ ecosites) has been achieved and can be achieved by layering (or even mixing) available coarse textured reclamation materials. This study has indicated that replicating the highly uniform ecosites (‘a’ ecosites) is where the bigger challenge lies in reclamation. Reclaiming with a diversity of target ecosites is essential to achieving the pre-disturbance land capability standard that the mine operators are bound by. The temptation may exist to simply condone reclamation that has met or exceeded the pre-exisiting land capability. However, problems with ground water recharge and regional water distribution are likely to arise if large areas of lower functioning ecosites are replaced with higher functioning ecosites.

coarse soil

layered soil

reclaimed soil

infiltration

drainage

water storage

available water holding capacity

soil water retention curve

1-D numerical modelling

The fate and effects of sewage-derived pharmaceuticals in soil

Gielen, Gertruda Jacqueline Hariette Petronella

January 2007

The behaviour and impact of pharmaceuticals in the environment are still poorly understood. Pharmaceuticals are widely used and continually released into the environment causing increasing concerns about their impact on the environment beyond the intended human or veterinary use. Prescribed pharmaceuticals, typically, enter the environment either through excretion after human use or disposal of surplus medication. Sewage treatment plants do not completely remove pharmaceuticals and their metabolites and these have been detected in sewage treatment plant effluent and receiving waters. Land application of treated sewage effluent is widely practiced in New Zealand as an alternative to surface water discharge. Methods were developed to determine selected pharmaceuticals in environmental matrices such as sewage effluent, sewage solids, soil, and soil water. From these, pharmaceutical removal efficiencies were determined for three common sewage treatment processes; activated sludge, composting and land application of sewage effluent. The impacts of some common pharmaceuticals on soil microbial communities, together with the effect of prolonged exposure to sewage effluent on these communities were examined. Additionally, toxicity of sewage effluent, and toxicity mechanisms of specific pharmaceuticals were investigated using luminescent micro-organisms and lettuce seedlings. Pharmaceuticals were successfully detected in sewage effluent, sewage solids, compost, soil and soil water. The sewage treatment processes investigated, including land application, were able to remove or reduce pharmaceutical concentrations in sewage. In case of land application, volcanic soils were more efficient than sandy soils in pharmaceutical removal while irrigation rate and level of sewage pre-treatment also showed some effect on removal efficiency. Pharmaceuticals were not acutely toxic at environmental levels currently detected. Exposure of microbial communities to unnaturally high levels of pharmaceuticals did demonstrate that most pharmaceuticals were potentially able to induce stress in the microbial community although microbes were able to metabolise some of these pharmaceuticals. Twelve years of effluent irrigation resulted in microbial adaptation to aspirin, acetaminophen and tetracycline, indicating that these pharmaceuticals had an effect on microbial community. Presently, land application of treated sewage waste may be a suitable treatment for additional pharmaceutical removal provided that land application schemes are designed appropriately, and pharmaceutical accumulation in the soil is occasionally monitored. It would be prudent to recognise the potential risk that could be caused by chronic exposure to pharmaceuticals such that continued vigilance may lead to future indications of chronic effects at an early stage.

pharmaceuticals

soil

soil water

microbial community

sewage

effluent irrigation

land application

toxicity

microbial adaptation

solid phase extraction

supercritical fluid extraction

GC-MS

Quantifying macropore flow effects on nitrate and pesticide leaching in a structured clay soil : field experiments and modelling with the MACRO and SOILN models /

Larsson, Martin,

January 1900

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv. / Härtill 3 uppsatser.

Shallot (Allium cepa var. ascolonicum) responses to plant nutrients and soil moisture in a sub-humid tropical climate /

Woldetsadik, Kebede.

January 2003

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv., 2003. / Härtill 5 uppsatser.

Avaliação de índices de qualidade física do solo e predição de parâmetros multifractais de solos sob Floresta Estacional Semidecidual / EVALUATION OF SOIL PHYSICAL QUALITY INDEXES AND PREDICTION OF MULTIFRACTAL PARAMETERS OF SOILS UNDER SEMI-DECIDUOUS FOREST

Thalita Campos Oliveira

07 May 2013

A Floresta Atlântica que originalmente formava uma área contínua com mais de 150 milhões de hectares sofre constante degradação. Atualmente somente cerca de 7-8% dessa cobertura vegetal ainda existe, em sua maioria, na forma de fragmentos florestais secundários. A Estação Ecológica de Caetetus possui um dos mais significativos remanescentes da Floresta Estacional Semidecidual que revestia quase todo o interior do estado de São Paulo, parte de Minas Gerais, Mato Grosso do Sul, Paraguai e Argentina. Para compreender as relações entre vegetação nativa e os solos são necessários estudos detalhados que inclui o funcionamento físico-hídrico do solo, assim, as propriedades físicas que possuem grande influência nas relações químicas e biológicas, desempenham papel central nos estudos da dinâmica dos processos do solo. O objetivo desse trabalho foi obter parâmetros quantitativos da estrutura do solo pela análise multifractal e comparar valores de qualidade física de áreas naturais com valores de referência de índices de qualidade física do solo encontrados na literatura, fornecendo dados que podem ser utilizados na avaliação da qualidade do solo em outros tipos de uso. Foi utilizado um banco de dados físico-hídrico e de imagens micromorfológicas de solos sob Floresta Estacional Semidecidual da parcela permanente da Estação Ecológica Caetetus, (Gália - SP, Brasil). Foram analisados três índices, índice S, capacidade de aeração relativa (ACt/Pt) e capacidade de campo relativa (CC/Pt). Os horizontes analisados apresentaram diferentes formas e simetrias pela análise multifractal indicando diferenças na distribuição de poros, com diferença significativa entre os parâmetros de forma f(?)razão, ?razão e ?? (p < 0.05). Os valores de S encontrados foram superiores ao limite proposto de qualidade física do solo (0,035). Os horizontes A e E apresentaram os valores mais altos, pois sua textura arenosa proporciona maiores valores de n. Os horizontes B apresentaram os valores mais baixos, pois seu adensamento natural reflete em valores menores de n. Os valores encontrados para os índices de qualidade do solo ACt/Pt e CC/Pt foram inferiores e superiores aos valores considerados ideais. Os resultados encontrados sugerem a reavaliação dos níveis limites considerados ideias da literatura para a avaliação da qualidade física do solo em regiões tropicais. Por meio da quantificação e integração das propriedades espaciais do sistema poroso do solo, a análise multifractal pode melhorar os sistemas de classificação da estrutura do solo e gerar parâmetros que, incorporados em funções de pedotransferência, agregam o parâmetro estrutura nas predições. / The Atlantic Forest originally covered around 150 million hectares undergoes constant degradation. Nowadays, only 7-8% of the original forest still remains, mostly as secondgrowth forests. The Caetetus Ecological Station has one of the most significant areas of Semideciduous Forest which covered almost all the interior of São Paulo State, part of Minas Gerais, Mato Grosso do Sul, Paraguay and Argentina. To understand the relationship between original vegetation and soil detailed studies are necessary which includes the hydro-physical soil function allowing to characterize the soil behavior. Thus, physical properties have strong influence in the chemical and biological relations and play a central role in studies of soils processes dynamics. The objective of this research was to obtain quantitative parameters of soil structure by multifractal analysis using hydro-physical database and soil micromorphology images of soils under Semi-deciduous Forest in a permanent plot of Caetetus Ecological Station (Gália - SP, Brazil) and compare soil physics quality values with of soil physical quality values founded in the literature, providing data to evaluate soil quality in areas with different soil uses. Three soil quality indexes were used, S index, relative air capacity (ACt/Pt) and relative field capacity (FC/Pt). The soils horizons showed different shapes and symmetries by multifractal analysis indicating differences of pores distribution, the parameters of multifractal shape f(?)ratio, ?ratio and ?? (p < 0.05) showed significant differences. The S values founded were higher and lower than the limit of soil physical quality proposed (0,035). The A and E horizon showed the highest values because its sandy texture allow high n values. The B horizons showed the lowest values, because its natural densificaition decreases the n values. The values founded for ACt/Pt and CC/Pt were higher and lower than the ideal limits. The results founded suggest a reevaluation of the ideal soil physical quality limits for tropical regions. Trough the quantification and integration of soil space properties, the multifractal analysis can improve structure classification systems and create a structure parameter that can be added in pedotransfer functions.

Análise de imagens

Análise multifractal

Índices de qualidade do solo

Relações solo-água-vegetação

Image Analysis

Multifractal Analysis

Soil Quality Indexes

Soil- Water-Plant- Relations

Fenometria, produtividade e necessidades hídricas das culturas da alface e do coentro em clima tropical. / Phenology, productivity and water requirements of crops of lettuce and coriander in tropical weather.

TAVARES, Alexandra Lima.

14 August 2018

Submitted by Maria Medeiros (maria.dilva1@ufcg.edu.br) on 2018-08-14T13:09:45Z No. of bitstreams: 1 ALEXANDRA LIMA TAVARES - TESE (PPGMet) 2016.PDF: 1785379 bytes, checksum: 4abc947e5329e85eba74a25f6ab6e976 (MD5) / Made available in DSpace on 2018-08-14T13:09:45Z (GMT). No. of bitstreams: 1 ALEXANDRA LIMA TAVARES - TESE (PPGMet) 2016.PDF: 1785379 bytes, checksum: 4abc947e5329e85eba74a25f6ab6e976 (MD5) Previous issue date: 2016-02-26 / Capes / O estudo foi conduzido na Unidade de Produção de Hortaliças da empresa Hortaliças Vida Verde, em parceria com a Universidade Federal de Sergipe (UFS), localizado no município de Itabaiana, SE. O objetivo do trabalho foi determinar a evapotranspiração (ETc) e os coeficientes de cultivo (Kc) do coentro e da alface cultivados em clima tropical, bem como avaliar as variáveis fenométricas ao longo de seu ciclo de produção. A ETc das culturas foi obtida através do balanço hídrico no solo e a evapotranspiração de referência (ETo) pelo método de Penman-Monteith, utilizando-se dados coletados numa estação automática localizada próxima à área experimental. As variáveis fenométricas avaliadas foram: comprimento das raízes e caule, área foliar e peso da massa fresca da parte aérea. Os resultados da pesquisa evidenciaram que os valores médios da ETc do coentro e da alface são, respectivamente, 139,8 e 158,5 mm, nas condições de realização do experimento. O Kc médio do coentro encontrado foi 0,87 e da alface 0,84. Verificou-se que as culturas do coentro e da alface requerem mais atenção com a demanda hídrica no período do verão. Os resultados obtidos permitiram ainda constatar que o coentro e a alface no período de outono proporcionam melhor desenvolvimento de suas variáveis fenométricas, bem como suas produtividades, sendo portanto este o período mais apropriado para o cultivo dessas culturas em regiões tropicais. / The study was carried out in production unit of vegetabled of company Hortaliças “Vida Verde” in partnership with the Federal University of Sergipe (UFS), located in the city of Itabaiana, SE. The objective of this study was to determine the evapotranspiration (ETc) and crop coefficients (Kc) of coriander and lettuce grown in a tropical environment, as well as evaluating the fenometric variables throughout its production cycles. The ETc crops was determined based on soil water balance and reference evapotranspiration (ETo) by Penman-Monteith method (FAO/56), using collected dates from automatic weather station next to experimental site. The fenometric variables were: length of the roots and stem, leaf area and Fresh weight of shoot. The mean values of ETc for coriander and lettuce are, respectively, 139.8 and 158.5 mm while the mean values of Kc were 0.87 and 0.84 for coriander and lettuce, respectively. Results also show that coriander crop water needs are higher than lettuce during summer period. The results revealed that the coriander and lettuce in the fall period provide better development of their fenometric variables and productivity, which is the most appropriate period for the cultivation of these crops in the tropical regions.

Meteorologia

Umidade do Solo

Irrigação

Penman-Monteith

Soil Water Content

Irrigation

Penman-Monteith Approach