Manejo da fertirrigação e controle da salinidade em solo cultivado com melão rendilhado sob ambiente protegido. / Fertirrigation management and control of the soil salinity under netmelon cultivation in greenhouse.

Nildo da Silva Dias

21 June 2004

Com o objetivo de avaliar o uso de extratores de soluções do solo no auxílio ao manejo da fertirrigação e no controle da salinidade em solo cultivado com melão rendilhado, conduziu-se um estudo em ambiente protegido na área experimental do Departamento de Engenharia Rural da ESALQ/USP, localizado no município de Piracicaba, SP. Os tratamentos foram compostos da combinação de dois fatores: 6 níveis de salinidade inicial do solo (S1 = 1,0; S2 = 2,0; S3 = 3,0; S4 = 4,0; S5 = 5,0 e S6 = 6,0 dS m-1) e dois manejos de fertirrigação: tradicional e com controle da condutividade elétrica da solução do solo. O delineamento estatístico adotado foi o de blocos casualizados completos com 4 repetições, sendo os fatores estudados arranjados em um esquema fatorial de 6 x 2. A salinização inicial do solo se procedeu por meio da aplicação de soluções salinas preparadas a partir de fertilizantes, sendo que a quantidade de sais a ser adicionada foi determinada tomando por base uma curva de salinização artificial obtida previamente em laboratório. A condutividade elétrica da solução foi medida após o término de cada evento de irrigação, utilizando-se extratores com cápsulas porosas. Os resultados revelam que as produções total e comercial, além do peso médio total dos frutos foram significativamente reduzidos com o incremento dos níveis de salinidade do solo Os efeitos da salinidade do solo sobre a altura e o diâmetro das plantas foram mais severos durante o desenvolvimento vegetativo inicial do que no início da frutificação, o que sugere uma possível adaptação das plantas ao estresse salino ao longo do tempo. Embora não tenha sido possível se detectar diferenças expressivas causadas pelos dois tipos de manejo da fertirrigação no desenvolvimento ou na produção da cultura, o uso dos extratores de solução permitiu auxiliar no manejo da fertirrigação, mantendo os níveis desejados de salinidade da solução do solo ao longo do tempo. / A study was carried out under greenhouse conditions, at the experimental area of the Department of Rural Engineering of “Escola Superior de Agricultura Luiz de Queiroz-USP”, Piracicaba, São Paulo State, Brazil, with the aim of evaluating ceramic cup samplers used to facilitate fertirrigation management and soil salinity control on a netmelon crop, was carried out The treatments comsisted of two combination factors: six level of initial soil salinity (S1 = 1.0, S2 = 2.0, S3 = 3.0, S4 = 4.0, S5 = 5.0 and S6 = 6.0 dS m-1) and two fertirrigation managements: the traditional and the control of eletrical conductivity of soil solucion. The statiscal test was in randomized blocks, with four replications, arranged in 6 x 2 factorial design. The initial soil salinity value was obtained by appling saline solutions of fertilizer salts using an artificial soil salinization curve obtained previously in laboratory. The electrical conductivity in soil solucion was measured after each irrigation using ceramic cup samplers. Results showed that both total and marketable fruit yield and total weight per fruit were significantly reduced by increase in soil salinity level. The soil salinity effects on plants height and stem diameter were more severe during early vegetative growth than in the beginning of fruit set. This suggests a possible plant adaptation to saline stress along the time. Although no differences were observed in case fertirrigation management treatments on plants development or yield, however the use of solution extractors helped in fertirrigation management because them permitted to keep soil solution salinity at desired level.

ambiente protegido (planta)

fertirrigação

melão

pós-colheita

química do solo

salinidade do solo

fertirrigation

greenhouse

netmelon

shelflife

soil chemistry

soil salinity

Transformation of the hyper-arid desert soils in Arequipa Peru during four decades of irrigated agriculture

Lucia De Lourdes Zuniga (9524549)

16 December 2020

In Peru, nearly 32 million people rely heavily on human-made coastal irrigation agricultural hubs that rely on water from melting glaciers, snowpack, and rain transported by rivers and canals from high in the Andes. However, Peru’s water resources are in a vulnerable state as climate change has shifted rainfall patterns causing glacier retreat affecting nearly the loss of one-third of the glaciers. In recent decades, an increase and expansion of irrigation projects in Peru require agriculture practices to consider environmental impacts directly. Now is the time to explore the sustainability of the desert agroecosystems and understand how different water management practices influence the supporting soil’s health so decision-makers can plan for future change in water resources and any feedbacks to the productivity of the soils. Over the past 40 years, Peru has led some of the largest scale water management projects on earth to convert infertile coastal desert soils into irrigated agricultural land. Still, these efforts can come at a severe local cost with impacts to groundwater quality, salination of the soil, toxic concentrations of trace metals due to evaporation, and overuse of fertilizer and pesticides. This thesis presents a study to assess how drip irrigation impacts desert soil chemistry within one of Peru’s desert irrigation projects in Arequipa’s southern district. We explored a chronosequence of drip irrigation in vineyards of 9-, 16- and 35- years. Results showed that both soil carbon and salinity accumulated progressively over time but that spatial accumulation patterns were influenced by proximity to the irrigation drip line. By 35 years, salinity levels exceeded what would be tolerances for most crops. Trace metals, such as Mn, Zn, and Ni, increased with time under drip irrigation and have significant relationships with Fe, present in the highest concentrations, seemingly controlling the patterns due to co-precipitation. However, no trace metals were found in quantities that would exceed Peru’s limits for agricultural soils. While drip irrigation is considered a water conservation strategy and widely promoted in the region over other irrigation techniques like high water volume furrow irrigation, its use may accelerate localized negative impacts to surface soil health. These progressive changes highlight the need for effective monitoring and salinity mitigation strategies in the region. This project is part of the bilateral technical program between Purdue University and Universidad Nacional San Agustín (UNSA) called the Arequipa Nexus Institute for Food, Water, Energy, and the Environment.

Soil Science

Arequipa

Desert irrigation

drip irrigation

trace elements

vineyard

desert agriculture

Soil Geochemistry

Avaliação dos atributos do solo sob diferentes ocupações na microbacia hidrográfica do córrego da Fazenda Glória Em Taquaritinga (SP) /

Morais, Tatiane Pereira Santos.

January 2010

Orientadora: Teresa Cristina Tarlé Pissarra / Banca: Renato Farias do Valle Junior / Banca: Sérgio Campos / Banca: José Frederico Centurion / Banca: João Antonio Galbiatti / Resumo: A retirada da cobertura vegetal original e a implantação de áreas de pastagem e canade- açúcar, com práticas de manejo inadequadas, acarretam modificações nas propriedades químicas, físicas e biológicas dos solos, com limitações na utilização agrícola e susceptibilidade à erosão. Assim, estudos dos processos físicos e químicos são importantes para avaliar as mudanças de origem natural ou antrópica sobre os meios. O estudo teve como objetivos avaliar os atributos químicos e físicos de um Argissolo Vermelho-Amarelo em três microbacias hidrográficas, em áreas de vegetação nativa, pastagem e cana-de-açúcar bem como analisar a ocorrência das áreas de maior escoamento superficial e, consequentemente, maior predisposição ao processo erosivo nas microbacias. A área de estudo compreendeu a microbacia hidrográfica do Córrego da Fazenda Glória, Município de Taquaritinga, Estado de São Paulo. Para a amostragem do solo foi realizada a caracterização do volume superficial, e essas amostras foram coletadas na superfície das vertentes das microbacias e em cada uso/ocupação selecionado. Os resultados obtidos foram avaliados por meio da comparação de médias para o teste de Tukey a 5%. A partir das curvas de nível da carta topográfica e dos pontos levantados com receptor geodésico de navegação com metodologia diferencial foi gerado uma malha de pontos georreferenciados em cada microbacia, para gerar o modelo numérico do terreno a partir da incorporação dos divisores de água e da rede de drenagem. As avaliações dos atributos físicos e químicos dos solos nas microbacias hidrográficas e em diferentes tipos de uso e ocupação demonstraram uma diferença significativa entre as áreas. O manejo do solo alterou os atributos químicos e físicos com impacto nas camadas superficiais do solo. A matéria orgânica foi um dos atributos mais sensíveis... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The removal of original vegetation cover and the deployment of pastures and sugarcane, with inadequate management practices, cause changes in the chemical, physical and biological properties of soils, with limitations on agricultural use and susceptibility to erosion. Thus, studies of physical and chemical processes are important to assess changes of natural development or anthropic on the means. The study was conducted to evaluate the physical and chemical attributes of a Ultisol in three watersheds, in areas of native vegetation, pasture and sugarcane, as well as, analyze the occurrence of the areas of greatest runoff and, consequently, greater predisposition to erosive processes in watersheds. The study area was the Córrego da Fazenda Glória watershed, Municipality of Taquaritinga, State of São Paulo. Soil sampling was performed to characterize the superficial volume, and these samples were collected on the surface of the watersheds and in three different land use selected. The results obtained were evaluated by the comparison of averages for the Tukey test at 5%. From the curves in a topographical map and from points collected with geodetic navigation receiver in a differential methodology was generated a digital elevation method in each watersheds. The assessments of physical and chemical attributes of soils in hydrographic watersheds and different land uses demonstrated a significant difference between the areas. Soil management altered the chemical and physical attributes impact in the soil superficial layers. The organic matter was one of the attributes more sensitive to changes due to agricultural practices. The digital terrain model showed a great potential, considering the scale of study of watersheds; and can help in spatial planning, urban and regional planning and zoning / Doutor

Bacias hidrográficas.

Química do solo.

Física do solo.

Watershed. eng

Soil chemistry. eng

Soil physics. eng

Soil erosion. eng

Plant communities on reclaimed surface mines in Northeast Ohio: Effects of succession and nitrogen-fixing autumn olive

Ruggles, Thomas Alan

25 November 2019

No description available.

Ecology

natural succession

plant community composition

nitrogen fixation

reclaimed surface mine

reforestation

soil chemistry

Elaeagnus umbellata

Robinia pseudoacacia

invasive species

Characterization, classification, and productivity studies of typic hapludult mapping units in the southern Piedmont of Virginia

Thomas, Pamela J.

January 1987

Two studies were initiated in the Virginia southern Piedmont to assess characterization, classification, and productivity of soils mapped as Cecil-Pacolet (clayey, kaolinitic, thermic Typic Hapludults). Effects of erosion on Ap and Bt soil properties and soybean grain yields were studied in Pittsylvania and Lunenburg counties. Relationships between soil properties, soybean yields, and erosion classes were not observed until the soils became severely eroded. Water contents at -10kPa and -1500kPa increased as clay content increased but plant available water remained at 0.09 m³ m⁻³ across erosion classes. Available phosphorus (P) decreased with severity of erosion and was significantly correlated with soybean yield. The highest grain yields were on slightly and moderately eroded soils and were attributed to available P levels above 18 mg P kg⁻¹ critical level for optimum crop production. Low yields on the severely eroded sites corresponded to available P below 18 mg kg⁻¹. A second study on composition and variability of the Cecil-Pacolet map unit in Appomattox County showed large variation in soil properties and taxonomic classes. Variability is attributed to intrusions of mafic materials in the map unit. Variability was extreme within delineated soil bodies and was reflected in taxonomic classification in which up to six taxa can occur within the same delineation. Cecil and Pacolet soils comprise 62 percent of the map unit. Similar soils comprise 70 percent of the map unit and dissimilar soils make up the remaining 30 percent. The map unit is named Pacolet-Cecil and dissimilar soils are included in the mapping unit description. / Master of Science

LD5655.V855 1987.T534

Soil chemistry

Soils -- Research

Soils -- Virginia -- Appomattox County

Soils -- Virginia -- Lunenburg County

Soils -- Virginia -- Pittsylvania County

The concentration of selected trace metals in South African soils

Herselman, Jacoba Elizabeth

12 1900

Thesis (PhD (Soil Science))--University of Stellenbosch, 2007. / Trace elements occur naturally in soils, usually at low concentrations (<0.1% or <1000 mg kg-1 of the earth’s crust), as a result of weathering and pedogenic processes acting on the rock fragments from which soil develops (parent material). Since about 98% of human food is produced on land, soil is the primary source supplying these elements to the food chain. Although cases of trace element deficiency and toxicity have been documented in many parts of South Africa, no comprehensive description of trace element concentration has yet been attempted for South Africa as a whole. The Natural Resources Land Type mapping project, initiated in the mid-1970s, has provided a collection of samples (approximately 4500) from soil profiles selected to represent the main soil forms in each land type and therefore to provide representative coverage of most of the soils of South Africa. These archived samples have now been analysed for a spectrum of trace elements, in terms of both available and total concentrations as well as other soil properties. Although detailed information is available on a wide range of trace metals, the seven trace metals considered to be of most interest in a South African context due to natural geological occurrences were selected for this study, including Cd, Co, Cr, Cu, Pb, Ni and Zn. This data was used to: • determine baseline concentrations in SA soils; • determining threshold values for South African agricultural soils receiving sewage sludge at agronomic rates; • determining the influence of certain soil properties on the baseline concentrations of these trace elements in SA soils; and • development of a bioavailable trace element distribution map for SA. The range, the mean and standard deviation (both arithmetic and geometric), and the median were used to summarize the data statistically. The baseline concentration range was calculated using the quotient and product of the geometric mean and the square of the geometric standard deviation, including data below the instrument detection limit. The upper limit of the baseline concentration range was set at the 0.975 percentile value of the population in order to minimize the influence of contamination and the lower limit at the 0.025 percentile value to minimize problems that might be associated with analytical uncertainty near the lower limit of detection. The quantile regression statistical approach was followed to illustrate the relationship between soil properties and trace element concentrations in soils. The soil properties that showed the strongest relation were CEC, clay content, pH (H2O) and S value (base status). The soils were then divided into different classes according to these soil properties and baseline concentrations were derived for the different classes. Soils with low clay contents have lower trace element concentrations than soils with higher clay contents, soils with low or high pH levels have lower trace element contents than soils with intermediate pH values and mesotrophic soils have higher trace element concentrations than dystrophic soils. This information is useful for the compilation of trace element distribution maps for South Africa where different soil forms and series/families could be classified into different classes to determine areas of potential deficiencies as well as toxicities. South Africa, with its diverse geology, has areas of both trace element toxicities and deficiencies and for decision-making purposes it is necessary to identify these areas. Mapping of trace element levels based on soil samples would provide valuable information, which cannot be obtained from geological or geographical maps. Statistical analyses of the data (clay %, base status, pH (H2O) and NH4EDTA extractable trace element concentrations) indicated that soils could be divided into five trace element classes based on their clay content, pH and base status (dystrophic, mesotrophic and eutrophic). The soil series according to the binomial soil classification system for South Africa were then divided into these different classes. The geometric means for each clay class were determined and the baseline concentration range for each class was calculated. The land type maps were used as basis for the distribution maps. A general trace element distribution map for South Africa was derived from this data as well as Cu and Zn distribution maps. A random selection of 500 soil samples across the country was used to verify the accuracy of the distribution map. The general trace element distribution map indicate, with a confidence level between 89 and 96%, where the potentially available trace element content of South African soils are low (deficient) too moderately high, excluding rocky areas and areas with limited soil. The Cu and Zn maps indicate the distribution and expected baseline concentrations of these specific elements in South African soils. The same methodology could be applied to derive risk maps for all the individual trace elements to indicate the distribution and expected baseline concentrations of the elements in South Africa. This presentation of baseline concentrations, reflecting likely natural ranges in South African soils, is the first quantitative report on the spatial extent and intensity of Zn, Cu and Co deficiency in South African soils. The proposal of new threshold values for trace elements in agricultural soils will be valuable in setting more realistic norms for environmental contamination that accommodate the geochemical peculiarities of the region, one example being rather high Cr and Ni concentrations with low bio-availability. This information should be of value not only in environmental pollution studies but also in health, agriculture, forestry and wildlife management. The following recommendations are made: • The baseline concentrations could be used to determine site specific threshold values based on soil properties and soil type. Soils with lower pH, clay content and CEC would require more protection than soils with high pH, clay content and CEC and therefore the threshold levels for these soils should be lower. • Although the distribution maps can be used to indicate broad areas of trace element deficiencies and toxicities, more detailed investigations are recommended for areas where problems are experienced. The same methodology could be applied on smaller scale to increase the value of the map and to add more value on a regional scale. The maps could be used for regional soil quality assessment especially in areas where trace element deficiencies or toxicities could result in negative effects on plants and animals.

Trace metals

Baseline concentration

Soil properties

Soil chemistry -- South Africa

Soils -- South Africa -- Analysis

Trace elements

Dissertations -- Soil science

Theses -- Soil science

Effect of biochar on chemistry, nutrient uptake and fertilizer mobility in sandy soil

Sika, Makhosazana Princess

03 1900

Thesis (MScAgric)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Biochar is a carbon-rich solid material produced during pyrolysis, which is the thermal degradation of biomass under oxygen limited conditions. Biochar can be used as a soil amendment to increase the agronomic productivity of low potential soils. The aim of this study was to investigate the effect of applying locally-produced biochar on the fertility of low-nutrient holding, sandy soil from the Western Cape, and to determine the optimum biochar application level. Furthermore, this study investigates the effect of biochar on the leaching of an inorganic nitrogen fertilizer and a multi-element fertilizer from the sandy soil. The biochar used in this study was produced from pinewood sawmill waste using slow pyrolysis (450 °C). The soil used was a leached, acidic, sandy soil from Brackenfell, Western Cape. In the first study, the sandy soil mixed with five different levels of biochar (0, 0.05, 0.5, 0.5 and 10.0 % w/w) was chemically characterised. Total carbon and nitrogen, pH, CEC and plant-available nutrients and toxins were determined. The application of biochar resulted in a significant increase in soil pH, exchangeable basic cations, phosphorus and water holding capacity. A wheat pot trial using the biochar-amended soil was carried out for 12 weeks and to maturity (reached at 22 weeks). The trial was conducted with and without the addition of a water-soluble broad spectrum fertilizer. Results showed that biochar improved wheat biomass production when added at low levels. The optimum biochar application level in the wheat pot trial was 0.5 % (approximately 10 t ha-1 to a depth of 15 cm) for the fertilized treatments (21 % biomass increase), and 2.5 % (approximately 50 t ha-1 to a depth of 15 cm) for unfertilized treatments (29 % biomass increase). Since most biochars are alkaline and have a high C:N ratio, caution should be taken when applying it on poorly buffered sandy soil or without the addition of sufficient nitrogen to prevent nutrient deficiencies. In the second study, leaching columns packed with sandy soil and biochar (0, 0.5, 2.5 and 10.0 % w/w) were set up to determine the effect of biochar on inorganic nitrogen fertilizer leaching over a period of 6 weeks. It was found that biochar (0.5, 2.5, and 10.0 % w/w) significantly reduced the leaching of ammonium (12, 50 and 86 % respectively) and nitrate (26, 42 and 95 % respectively) fertilizer from the sandy soil. Moreover, biochar (0.5 %) significantly reduced the leaching of basic cations, phosphorus and certain micronutrients. This study demonstrated the potential of biochar as an amendment of acidic, sandy soils. Our findings suggest that an application rate of 10 t ha-1 should not be exceeded when applying biochar on these soils. Furthermore, biochar application can significantly reduce nutrient leaching in sandy agricultural soils. / AFRIKAANSE OPSOMMING: Biochar is ʼn koolstof-ryke, soliede materiaal geproduseer gedurende pirolise, wat die termiese degradasie van biomassa onder suurstof-beperkte omstandighede behels. Biochar kan gebruik word as ʼn grondverbeterings middel om die agronomiese produktiwiteit van grond te verhoog. Die doel van hierdie studie was om die effek van plaaslike vervaardigde biochar op die vrugbaarheid van die sanderige grond van die Wes-Kaap te ondersoek, en om die optimale biochar toedieningsvlak te bepaal. Verder, het hierdie studie die effek van biochar op die loging van anorganiese stikstof kunsmis en ‘n multi-elementkunsmis op sanderige grond ondersoek. Die biochar wat in hierdie studie gebruik is, is van dennehout saagmeul afval vervaardig d.m.v. stadige pirolise (450 °C). Die grond wat in hierdie studie gebruik is, is ‘n geloogde, suur, sanderige grond van Brackenfell, Wes-Kaap. In die eerste studie, is ‘n chemiesie ondersoek van die sanderige grond wat vermeng met is met vyf verskillende vlakke van biochar (0, 0.05, 0.5 en 10.0 % w/w) uitgevoer. Totale koolstof en stikstof, pH, KUK, en plant-beskikbare voedingstowwe en toksiene is in die grondmengsels bepaal. Die toediening van biochar het ‘n veroorsaak dat die grond pH, uitruilbare basiese katione, fosfor en waterhouvermoë beduidend toegeneem het. ‘n Koringpotproef was uitgevoer vir 12 weke en ook tot volwassenheid (wat op 22 weke bereik was) om die effek van die biochar op die sanderige grond teen die vyf verskillende toedieningsvlakke te bepaal. Daar was behandelings met en sonder die bykomstige toediening van ‘n wateroplosbare breë-spektrumkunsmis. Resultate toon dat die toediening van biochar teen lae vlakke koringbiomassa produksie verbeter. Die optimale biochar toedieningsvlak in die koringpotproef is 0.5 % (omtrent 10 t ha-1 tot ‘n diepte van 15 cm) vir die bemeste behandeling (21 % biomassa toename), en 2.5 % (omtrent 50 t ha-1 na ‘n diepte van 15 cm) vir onbemeste behandelings (29 % biomassa toename). Aangesien die meeste biochars alkalies is en ‘n hoë C:N verhouding besit, moet sorg gedra word wanneer dit op swak-gebufferde of lae N-houdende sanderige gronde toegedien word. Die resultate het aangedui dat die biochar versigtig aangewend moet word om grond oorbekalking te voorkom. In die tweede studie, was kolomme gepak met 2.0 kg van die sanderige grond gemeng met biochar (0, 0.05, 0.5, 2.5 en 10.0 % w/w) om die effek van biochar op die loging die anorganiese stikstof kunsmis oor ‘n tydperk van 6 weke om vas te stel. Daar is gevind dat biochar (0.5, 2.5 en 10.0 % w/w) die loging van ammonium (12, 50 en 86 % onderskeidelik) en nitraat (26, 42 en 95 % onderskeidelik) op sanderige grond aansienliek verminder. Verder, het biochar (0.5 %) die loging van basiese katione, fosfor en mikrovoedingstowwe aansienlik verminder. Hierdie studie het die potensiaal van biochar as verbeteringmiddel van suur, sanderige grond gedemonstreer. Ons bevindinge dui daarop aan dat ‘n toepassing vlak van 10 t ha-1 moet nie oorskry word nie wanneer biochar op hierdie gronde toegedien word. Die toediening van biochar op sanderige grond kan die loging van voedingstowwe aansienlik verlaag.

Biochar

Soil chemistry

Nutrient leaching

Soil fertility

Dissertations -- Soil science

Theses -- Soil science

Dissertations -- Agriculture

Theses -- Agriculture

Soils -- South Africa -- Western Cape

Bed filters for phosphorus removal in on-site wastewater treatment : Removal mechanisms and sustainability

Eveborn, David

January 2010

<p>For many surface waters, phosphorus (P) leaching is a serious problem that should be minimized to prevent eutrophication. In Sweden there is a demand for physical and technical development of high-performance P removal techniques to reduce phosphorus leaching from on-site wastewater treatment systems to the Baltic Sea. However, although these systems are designed to reduce eutrophication there are also other environmental impacts to be considered when implementing them in on-site systems; energy use and global warming potential are two examples. This study has investigated several bed filter materials (reactive media and natural soils) for their total environmental impact (in commercial applications) as well as for the predominating chemical phosphorus removal mechanisms. The use of life cycle assessment revealed that several reactive bed filters are relatively energy-consuming due to the material manufacturing process. Characterization of phosphorus compounds in used reactive media provided evidence for calcium phosphate precipitation as the predominating P removal mechanism in alkaline filter materials. However, in soil treatment systems with noncalcareous soils, batch experiments and extractions suggested that aluminium compounds were important for P removal. According to mass balance calculations that compared accumulated P with the estimated P load in a soil treatment system, the long term P removal capacity was very low; only 6.4 % of the applied phosphorus had been removed during 16 years of operation.</p>

On-site wastewater treatment

Eutrophication

Environmental impact assessment

Phosphorus removal mechanisms

Soil infiltration

Reactive bed filters

Environmental engineering

Miljöteknik

Water engineering

Vattenteknik

Soil chemistry

Markkemi

Teores de água e solutos no solo: desempenho e sensibilidade do modelo Hydrus-1D / Water and solutes contents in soil: performance and sensitivity of Hydrus-1D model

Pinho, Roque Emmanuel da Costa de

15 January 2010

A preocupação com o destino de produtos químicos e água, aplicados ao solo, tem motivado vários pesquisadores a desenvolverem e aplicarem modelos teóricos, objetivando descrever os processos físicos envolvidos no transporte desses produtos no perfil do solo. Nesse sentido, a presente pesquisa teve como objetivo a aplicação do modelo Hydrus-1D para simulação do movimento da água e dos íons nitrato e potássio, em condições de laboratório, utilizando-se para tal colunas segmentadas preenchidas com dois tipos de solo não-saturado (Latossolo Vermelho Amarelo e Nitossolo Vermelho), bem como avaliar o desempenho e sensibilidade do referido modelo. Para a obtenção dos parâmetros de transporte de cada soluto, foram elaboradas as curvas de distribuição de efluentes (Breakthrough Curves BTC). Os parâmetros de transporte obtidos e as condições de contorno de cada ensaio foram inseridos no modelo Hydrus- 1D para realização das simulações. O desempenho do modelo foi avaliado com base nos parâmetros estatísticos: erro máximo, erro absoluto médio, raiz quadrada do erro médio normalizado, coeficiente de massa residual, coeficiente de determinação, eficiência e índice de concordância de Willmott. A sensibilidade do modelo foi avaliada conforme o método proposto por McCuen e Snyder (1986) e a análise foi aplicada aos parâmetros: fluxo de entrada, condutividade hidráulica do solo saturado, teor de água na saturação, alfa e n (parâmetros de ajuste da curva de retenção), coeficiente de distribuição e dispersividade. Os resultados experimentais mostraram que o deslocamento do íon nitrato acompanhou a frente de molhamento e em relação ao potássio, observou-se uma maior retenção nas camadas superficiais da coluna de solo, para ambos os solos. Pôde-se concluir que o modelo Hydrus-1D foi eficiente para simulações de deslocamento de potássio e água para ambos os solos estudados e mediante a utilização do modelo de equilíbrio para o transporte de solutos no solo, o modelo Hydrus-1D não foi eficiente para simular o deslocamento de nitrato, para ambos os solos. Os procedimentos experimentais para estimativa de parâmetros de transporte, como as curvas de distribuição de efluentes, foram suficientes para descrever a movimentação de potássio no solo, gerando informações de entrada precisas para os modelos de simulação. Para a simulação do deslocamento do íon nitrato, concluiu-se que o modelo Hydrus-1D requer um processo experimental mais detalhado, sendo necessária a estimativa de um maior número de parâmetros de transporte. Em relação à análise de sensibilidade, ao simular os teores de potássio e água no solo, o modelo apresentou maior sensibilidade aos parâmetros teor de água na saturação e fluxo de entrada da solução. Tais parâmetros, portanto, precisam ser determinados com maior precisão. Houve baixa sensibilidade aos parâmetros condutividade hidráulica do solo saturado e dispersividade, para ambos os solos estudados. / The concern about the fate of chemical products and water, applied to the soil, has been motivating several researchers to develop and apply theoretical models, aiming to describe the physical processes involved in the transport of those products in soil profile. The present research had as objective the application of the model Hydrus- 1D for water and solute (nitrate and potassium) simulation profile, in laboratory conditions, using soil columns filled with two types of unsaturated soil (Oxisol (Haplustox) and Hapludox), as well to evaluate the acting and sensitivity of the model. The transport parameters were obtained for each solute by breakthrough curves (BTCs). The transport parameters obtained and the boundary conditions were inserted in the Hydrus-1D model to realize the simulations. The acting of the Hydrus-1D model was evaluated using the statistical indicators: maximum error, mean absolute error, normalized root mean-square error, coefficient of residual mass, determination coefficient, efficiency and Willmott concordance index. The model sensitivity was evaluated by the method proposed by McCuen and Snyder (1986) and applied to the parameters: input flow, soil saturated hydraulic conductivity, water content (saturation point), alpha and n (soil water retention curve parameters), distribution coefficient and dispersivity. The obtained results, experimentally, showed the nitrate displacement following the wetting front and, in relation to the potassium ion, a larger retention was observed at the superficial soil columns layers. Therefore, was possible to conclude that Hydrus-1D model was efficient for both water and potassium displacement simulations, for both studied soils and by the balance model for solute transport in soil, the Hydrus- 1D model was not efficient to simulate the nitrate displacement in both soils. The experimental procedures to estimate transport parameters, by the BTCs, were enough to describe the potassium movement in soil, generating input information necessary to the model simulation. To the simulation of the nitrate displacement, was possible to conclude that the model Hydrus-1D requests a more detailed experimental process, being necessary the estimate of a larger number of transport parameters. In relation to the sensitivity analysis of the Hydrus-1D model, when simulated the content of potassium and water at the soil columns, was observed that the model shows more sensitivity about to the parameters: water content (saturation point) and input flow. This parameters need to be estimated with more precision. There was a low sensitivity to the parameters soil saturated hydraulic conductivity and dispersivity for both studied soils.

Água no solo

Computational Modeling

Leaching in Soil

Lixiviação no solo

Modelagem computacional

Nitrate

Nitrato

Potássio

Potassium

Química do solo

Soil Chemistry

Solute

Soluto.

Water in soil

Efeito da irrigação com efluente de esgoto tratado no sistema solo-planta em Latossolo cultivado com cana-de-açúcar / Effects of treated sewage effluent irrigation on the soil-plant system of an Oxisol cultivated with sugarcane

Firme, Lilian Pittol

05 October 2007

O uso de efluente de esgoto tratado (EET) na agricultura apresenta-se como uma alternativa viável por se tratar de uma fonte de umidade e de nutrientes minerais aos sistemas agrícolas, aliado à redução da utilização de água de boa qualidade na irrigação, bem como a diminuição da descarga do EET nos rios, minimizando assim possíveis danos ambientais. Entretanto, deve-se ressaltar a importância do monitoramento contínuo do sistema solo-planta em razão do risco da utilização de águas residuárias, sobretudo aquelas ricas em sódio. Desse modo, esse trabalho teve como objetivo contribuir para o conhecimento dos efeitos da aplicação de EET no sistema solo-cana-de-açúcar, avaliando possíveis alterações químicas do solo e da planta, e a qualidade do caldo. O experimento foi instalado num campo experimental situado em Lins, São Paulo. A adubação mineral de plantio consistiu na aplicação de metade da dose recomendada do adubo nitrogenado, 15 kg ha-1 de N (nitrato de amônio), 120 kg ha-1 de P2O5 (superfosfato simples) e 80 kg ha-1 de K2O (cloreto de potássio). O delineamento experimental foi em blocos completos com parcelas subdivididas no tempo com cinco tratamentos e quatro repetições. Os tratamentos foram: SI, sem irrigação; 100 %, umidade do solo na capacidade de campo; 125, 150 e 200% que corresponderam a 25, 50 e 100% a mais da umidade do solo na capacidade de campo, respectivamente. Foram observados aumentos nas concentrações de sódio (Na) nas folhas, fósforo (P) e cálcio (Ca) no caldo, e potássio (K) no colmo. Para os micronutrientes houve diminuições nas concentrações de manganês (Mn) e zinco (Zn) na folha, no caldo e no colmo, e no caso do ferro (Fe) a diminuição ocorreu no caldo. A irrigação com EET não ocasionou prejuízos a qualidade dos colmos industrializáveis. As maiores produtividades foram observadas nos tratamentos 100 e 150, 247,33 e 232,81 t ha-1, respectivamente. No solo, houve incrementos do pH, das concentrações de P, Na, B e Fe, e um decréscimo nas concentrações de Ca, magnésio (Mg), K e cobre (Cu). Os teores de matéria orgânica (MO) decresceram em todo perfil do solo e, os teores de carbono total (CT) e nitrogênio total (NT) não apresentaram alterações em razão da irrigação com EET. A não utilização da dose completa do adubo nitrogenado não implicou na queda da produtividade da cana-planta. As perspectivas para a irrigação da cana-de-açúcar com EET são promissoras, demandando estudos de longo prazo para confirmação dos resultados até agora obtidos e também para o monitoramento de possíveis prejuízos que possam vir a ocorrer no sistema solo-planta. / The use of treated sewage effluent (TSE) in agriculture is a viable alternative once it is a source of humidity and mineral nutrients to the agricultural systems, allied to the reduction of good quality water consumption for agricultural irrigation, as well as the reduction of the discharge of TSE in the water courses, thus minimizing possible environmental damages. However, it should be standed out the importance of the continuous monitoring of the soil-plant system because of the risks represented by the wastewater use, overall those rich in sodium. In this manner, this work aimed to contribute to the knowledge of TSE application effects in the soil-sugarcane system, evaluating the chemical alterations of the soil and the plant, and also the quality of the soup. The experiment was installed in an experimental area situated at Lins, São Paulo State. The mineral fertilization at planting was half of the recommended nitrogen dose, 15 kg ha-1 of N (ammonium nitrate), and also 120 kg ha-1 of P (single superphosphate) and 80 kg ha-1 of K (potassium chloride). The experimental design was in complete blocks with split plots in time, with five treatments and four replicates. Applied treatments were: SI, without irrigation; 100%, soil humidity at the field capacity; 125, 150 and 200% that corresponded to 25, 50 and 100% more soil humidity than the field capacity, respectively. Increases in the concentrations of sodium (Na) in the leaves, phosphorus (P) and calcium (Ca) in the soup, and potassium in the culms were observed. Considering the micronutrients, reductions on the concentrations of manganese (Mn) and zinc (Zn) in the leaves, culms and soup occurred, while in the case of iron (Fe), observed reductions occurred for the soup. TSE irrigation has not prejudiced the quality of the industrialized culms. The highest yields were observed in the treatments 100 and 150, 247.33 and 232.81 t ha-1, respectively. Increments of the values of pH and concentrations of P, Na, boron (B) and Fe were obtained in the soil, while, in the case of Ca, magnesium (Mg), K and cupper (Cu) concentrations in the soil decreased. The organic matter levels decreased all over the soil profile and, the levels of total carbon (TC) and total nitrogen (TN) were not altered by the irrigation with TSE. The non-use of the mineral N fertilizer complete dose did not imply in the fall of the sugarcane-plant productivity. The perspectives for sugarcane irrigation with wastewater are promising, demanding however long-term studies in order to confirm the results obtained till the present moment, and also to the monitoring of possible damages that may occur in the soil-plant system.

Cana-de-açúcar

Effluents

Efluentes

Irrigação por gotejamento

Irrigation by dripping

Química do solo

Relação solo-planta

Sanitary sewage treatment

Soil chemistry

Soil-plant relation

Sugarcane

Tratamento de esgotos sanitários