Dinâmica do nitrogênio na cultura do milho (Zea mays L.), em cultivo sucessivo com aveia preta (Avena strigosa), sob implantação do sistema plantio direto / Nitrogen dynamics in maize (Zea Mays L) and black oats (Avena srigosa) successive cropping under the introduction of the no-tillage system

Fernandes, Flavia Carvalho Silva

21 February 2006

O presente trabalho foi desenvolvido na área experimental da ESALQ-USP, localizada no município de Piracicaba/SP, em um Latossolo Vermelho Amarelo, textura areno-argiloso. O experimento teve como objetivo estudar a dinâmica do N no sistema solo-planta da cultura do milho, sob implantação do sistema plantio direto, e, pela técnica do 15N, avaliar a lixiviação de nitrato à profundidade de 0,80 m, a eficiência de utilização do N e o efeito residual do fertilizante nas culturas subseqüentes. O projeto envolveu dois cultivos de milho e um de aveia preta, cultivada na entressafra. O delineamento experimental foi o de blocos casualizados (3x2), com 4 repetições. Os tratamentos consistiram de doses de nitrogênio, na forma de sulfato de amônio (60, 120 e 180 kg ha-1 de N) e uma testemunha, além dos parcelamentos (30 kg ha-1 de N na semeadura e o restante em cobertura; 60 kg ha-1 de N na semeadura e o restante em cobertura). A aplicação de sulfato de amônio enriquecido com 15N foi feita, na dose de 120 kg ha-1 de N, em subparcelas, previamente definidas, apenas no primeiro cultivo do milho. Foram feitas as seguintes avaliações: densidade de fluxo de água e de nitrato na profundidade de 0,80 m do solo (dose de 120 kg ha-1 de N); massa de 100 grãos; massa de matéria seca; teor de N; rendimento de grãos de milho; átomos % 15N nas plantas e solo; fração do N fertilizante na solução do solo na profundidade de 0,80 m, e no perfil do solo; balanço do N na sucessão de culturas; efeito residual do N fertilizante (aplicado no primeiro cultivo de milho) na aveia e no segundo cultivo de milho. Pelos resultados obtidos, concluiu-se que: a) a perda de nitrato total por lixiviação, a 0,80 m de profundidade, no 1º cultivo de milho, na dose de 120 kg ha-1 de N, foi de aproximadamente 96 e 68 kg ha-1, para os parcelamentos com 60 kg ha-1 e 30 kg ha-1 de N na semeadura, respectivamente, dos quais apenas 3 e 1 kg ha-1 foram provenientes do fertilizante nitrogenado; b) na dose 120 kg ha-1 de N, o tratamento com maior quantidade de N aplicado na semeadura (60 kg ha-1), no cultivo de milho do ano agrícola 2003/2004, proporcionou um maior aproveitamento do N do fertilizante (65%), em relação ao tratamento com a dose de 30 kg ha-1 na semeadura (45%) e que, para esse ano, a recuperação do N fertilizante pelo solo, na camada 0-0,80 m, para ambos os tratamentos, 60-60 e 30-90 kg ha-1, foi de 40 e 49%, respectivamente; c) Ainda referindo-se aos tratamentos 60-60 e 30-90 kg ha-1, do N remanescente do sulfato de amônio (120 kg ha-1), aplicado no primeiro ano agrícola (efeito residual), 3,72 e 1,79% foram utilizados pela aveia preta e 2,84 e 2,06% pelo milho cultivado no ano subseqüente (2004/2005), permanecendo no solo (camada 0-0,80 m), 30,19 e 33,47% após o cultivo de aveia preta e 16,79 e 17,91% após o segundo cultivo de milho, respectivamente, para os referidos tratamentos. / The general objective of this work was to study the dynamics of nitrogen in the soil-plant system of two maize crops with a black oats one in between, introducing the no-tillage system. Besides, fertilizing the first maize crop with 15N enriched nitrogen fertilizer, it was also objective of this work to assess the total and the derived from fertilizer nitrate leached at the depth of 0.8 m, the nitrogen use efficiency by the crops and the residual effect of the labeled nitrogen fertilizer. The experiment was carried in the experimental areas of ESALQ-USP in the country of Piracicaba (SP), in a yellow red latossol, sandy-loamy texture. The first maize crop was in 2003/2004 and the second one in 2004/2005. The experimental design was randomized blocks (3 x 2), with four replications. Treatments consisted of nitrogen (as ammonium sulphate) levels (60, 120 and 180 kg ha-1 of nitrogen) and the control, besides the splittings (30 and 60 kg ha-1 of nitrogen in the sowing and the rest in covering). The fertilization with 15N enriched ammonium sulphate in the first maize crop was made only for the level of 120 kg ha-1 of nitrogen, in subplots previously defined. The following measurements were carried out: soil-water and nitrate flux densities at the depth of 0.8 m (120 kg ha-1 of N); weight of 100 grains; weight of plant dry matter; nitrogen content; grain yield; total nitrogen; plant nitrogen use efficiency; fraction of the applied nitrogen in the soil solution at the depth of 0.8 m and in the soil profile; nitrogen balance in the crops succession; nitrogen residual effect in the black oat and the second maize crop. From the results, it could be concluded that: a) the leaching losses of total N, at the depth of 0,80 m, in the first maize crop, at the fertilization level of 120 kg ha-1 of N, were of 96 and 68 kg ha-1 for the splittings 60 and 30 kg ha-1 of N at sowing, respectively, from which only 3 and 1 kg ha-1 were derived from the nitrogen fertilizer; b) at the N fertilization level of 120 kg ha-1, the treatment with higher amount of applied N at sowing (60 kg ha-1) of the first maize crop (2003/2004) led to a higher plant N fertilizer recovery (65%) than the 30 kg ha-1of applied N at the sowing treatment (45%) and that, at the end of this crop cycle, the N fertilizer recovery by the 0-0,80 m soil layer, for 60-60 and 30-90 kg ha-1 treatments, were 40 and 49%, respectively; c) still for treatments 60-60 and 30-90 kg ha-1, from the total N applied in the first maize crop (120 kg ha-1), 3.72 and 1.79% were used by the black oats and 2.84 and 2.06% by the second maize crop, remaining in the soil (0-0.8 m layer), 30.19 and 33.47% after the black oats crop and 16.79 and 17.91% after the second maize crop, respectively for 60-60 and 30-90 kg ha-1 of N treatments.

15N ammonium sulphate

aveia

black oats

física do solo

lixiviação

maize

milho

nitrogen use efficiency

nitrogênio – eficiência

no-tillage system

plantio direto

química do solo

sulfato de amônio

water and nitrate flux densities

Fertilização nitrogenada no consórcio milho - braquiária em solos de clima tropical úmido no sistema de integração lavoura-pecuária / Nitrogen fertilization in intercropping corn and palisadegrass at weathered soils in crop-livestock integration system

Rodrigo Estevam Munhoz de Almeida

18 February 2014

O sistema integração lavoura pecuária (ILP) atende muitas diretrizes para estabelecer um manejo sustentável de produção agropecuária. Consiste em integrar na mesma área, a produção agrícola e pecuária de forma que haja o cultivo de grãos e estabeleça uma pastagem para a criação de animais. O consórcio de milho com braquiária é uma tecnologia utilizada para se atingir os objetivos da ILP. Trata-se de técnica de cultivo de milho junto com a braquiária sem prejuízo ao milho, e que a braquiária possa se estabelecer na área após a colheita do milho. A eficiência da adubação nitrogenada (EAN) na cultura do milho é discutida na literatura em trabalhos que utilizaram fertilizantes marcados com 15N. Os dados são variados pelo motivo do nitrogênio ter dinâmica complexa no sistema produtivo. Trabalhos que avaliaram a EAN no consórcio de milho com braquiária são escassos na literatura internacional, e não se sabe quanto do fertilizante nitrogenado aplicado é absorvido pela planta forrageira, e se é necessário um aumento da dose para não ocorrer falta de nitrogênio neste sistema de produção. Esta tese foi realizada com os seguintes objetivos (i) avaliar a influência da braquiária no aproveitamento do fertilizante nitrogenado, em razão das formas de implantação do consórcio milho - braquiária utilizadas no Brasil, (ii) avaliar a eficiência do N proveniente de fertilizante de liberação gradual, (iii) verificar a possibilidade da aplicação a lanço de ureia revestida. A primeira pesquisa foi desenvolvida nas cidades de São Desidério-BA e Piracicaba-SP, e foi comprovado que a presença da braquiária não afetou a produtividade de milho nem a recuperação do 15N-fertilizante. As formas recomendadas para implantação do consórcio de milho com braquiária são: (i) braquiária semeada a lanço antes da semeadura do milho; (ii) braquiária no centro das entrelinhas de milho; (iii) braquiária junto com o fertilizante de semeadura do milho, (iv) braquiária junto com o fertilizante de cobertura incorporado nas entrelinhas. Não é necessário aumentar a dose do fertilizante nitrogenado em sistema de milho consorciado com braquiária, uma vez que a braquiária absorve no máximo 4,3 kg ha-1 do N-fertilizante. A segunda pesquisa foi realizada nas cidades de Taquarituba-SP e Uberlândia-MG, e demonstrou que a produtividade de milho e o acúmulo de N não variam com o uso de ureia de liberação controlada aplicadas a lanço e incorporada em relação à ureia comum. As ureias de liberação controlada não promovem maior recuperação do 15N-fertilizante pelo milho e pela braquiária em relação à ureia comum, nem a produção de biomassa da braquiária. O N do fertilizante absorvido pela braquiária consorciada com milho é menos de 1% de todo N acumulado no sistema, e no máximo 2% do N-fertilizante aplicado. As ureias de liberação controlada não viabilizam a aplicação a lanço, e dependem das mesmas condições climáticas que a ureia comum para obterem bom desempenho. / Crop-livestock integration system (CLI) attends many guidelines for establishing a sustainable agricultural production. CLI consists in integrating agricultural and livestock production in the same area, in order to establish a pasture for grazing animals after a grain production. Intercropping corn and palisadegrass is a technology used to obtain CLI objectives. In this technique the palisadegrass is cropped together with corn without affecting corn yield, and after harvest the palisadegrass grows in the area in order to form a pasture. Studies that evaluated nitrogen use efficiency (NUE) in maize in crop systems with labeled 15N-fertilizer shows varied data. This is due to nitrogen\'s complex dynamics in the production system. However, studies that evaluated NUE in corn intercropped with palisadegrass are scarce in the literature, and it is unknown how much of nitrogen fertilizer applied is uptake by the palisadegrass, and if an increase in nitrogen rate is necessary to avoid lack of nitrogen in production system. The aims of this thesis was to evaluate: (i) the influence of palisadegrass in the use of nitrogen fertilizer, according to forms of implantation of palisade grass used in Brazil, (ii) the efficiency of N from gradual release fertilizer,(iii) the viability of broadcast application of coated urea on intercropping system. The first study was conducted in the sites of Sao Desidério-BA and Piracicaba-SP, and it demonstrated that the presence of palisadegrass did not affect corn yield neither 15N-fertilizer recovery. Intercropping system can be established by the followings forms: (i) palisadegrass broadcasted before maize sown, (ii) placed between the rows of maize, (iii) palisadegrass applied together with corn fertilizer, (iv) with topdressing fertilizer in furrows. It is not necessary increase N rate in the intercropping system because palisadegrass uptakes at most of 4.3 kg ha-1 of N-fertilizer. The second research was conducted in two sites, Taquarituba-SP and Uberlândia-MG, and demonstrated that the use of coated urea did not differ in corn yield and N uptake in relation to the common urea, either when it was incorporated or broadcast applied. The coated urea neither promotes better recovery of the 15N-fertilizer by corn and braquiária in relation to the common urea, nor increases the palisadegrass biomass production. Nitrogen fertilizer uptake by palisadegrass represents less than 1% of total N uptake in the intercropping system, and a maximum of 2% of N-fertilizer applied The slow release urea does not enable the broadcast placement, and its efficiency depends upon the same climatic conditions of the common urea.

Brachiaria spp.

Urochloa spp.

Aplicação a lanço e incorporada

Eficiência da adubação nitrogenada

Nitrogênio marcado 15N

Ureia de liberação controlada

Brachiaria spp.

Urochloa spp.

15N - labeled nitrogen

Broadcast and in furrow placement

Nitrogen use efficiency

Slow release fertilizer

Adubação nitrogenada em soqueiras de cana-de-açúcar: influência do uso em longo prazo de fontes e/ou doses de nitrogênio / Nitrogen fertilization in sugarcane ratoon: long-term effects of fertilizers and nitrogen rates

Beatriz Nastaro Boschiero

07 December 2016

O uso de determinadas fontes nitrogenadas, doses e formas de nitrogênio (N) pode aumentar a eficiência de uso de N (EUN) em soqueiras de cana-de-açúcar (Saccharum spp.), mantendo, em longo prazo, elevados índices de produtividade, lucro e proteção ao ambiente. Experimentos de campo e de casa-de-vegetação foram desenvolvidos com os seguintes objetivos: (i) avaliar o efeito do manejo do N-fertilizante e dos ciclos de soqueira da cultura na produtividade, parâmetros tecnológicos, acúmulo de biomassa, acúmulo e balanço de nutrientes e nas alterações dos atributos químicos do solo; (ii) avaliar a produção de biomassa seca, metabolismo e nutrição de plantas de cana-de-açúcar cultivadas em solução nutritiva, com suprimento exclusivo ou misto de nitrato (NO3-) e amônio (NH4+) como fontes de N; (iii) avaliar a EUN do 15N-nitrato (15NH4NO3), 15N-amônio (NH415NO3) e 15N-amida [(15NH2)2CO] aplicados na quarta soqueira de cana-de-açúcar em condições de campo; e avaliar a EUN do 15N-amônio e 15N-nitrato aplicados em mudas de cana-de-açúcar cultivadas em solução nutritiva. No campo, o N-fertilizante foi repetido nas mesmas parcelas experimentais (parcelas estáticas), em anos subsequentes (quatro ou cinco soqueiras) e o manejo de N-fertilizante, que incluiu fontes e doses de N, não influenciou na produtividade de colmos e de açúcar no local 1 (Latossolo Vermelho Amarelo distrófico - LVAd). Entretanto, no local 2 (também LVAd), o NA100 e o NAC100 [nitrato de amônio (NA) e nitrato de amônio e cálcio (NAC), ambos na dose de 100 kg ha-1 de N] foram os manejos mais vantajosos para a obtenção das maiores produtividades de colmo e de açúcar em soqueiras quando comparado aos demais tratamentos. No geral, nos dois locais, o NAC150 (150 kg ha-1 de N) proporcionou os maiores acúmulos de biomassa, N e K nas plantas. Além disso, enquanto o controle (sem adição de N) apresentou as menores produções de biomassa e acúmulos de nutrientes (com exceção ao P), o balanço de nutrientes do solo nesse tratamento foi relativamente neutro após anos de cultivo da cana-de-açúcar. Em condições controladas, plantas de cana-de-açúcar supridas exclusivamente com amônio apresentaram menor produção de biomassa, acúmulo de nutrientes e área foliar do que os outros tratamentos (supridos com combinações de NO3-/NH4+ e somente com nitrato), indicando que o uso exclusivo dessa forma de N não foi eficiente para sustentar o crescimento vegetal. A maior EUN foi obtida com o fornecimento exclusivo de nitrato, que também proporcionou maior produção de biomassa seca, área foliar, acúmulo de macronutrientes, atividade fotossintética e crescimento do sistema radicular. A utilização de 15N indicou que, no campo, não houve diferença na EUN pelas plantas devido à utilização do 15N-nitrato e 15N-amônio. Em contraste, a EUN do 15N-amônio foi maior que a do 15N-nitrato durante o 1º, 4º e 7º dia após a aplicação do fertilizante (DAAF), em condições controladas. Contudo, o uso do 15N-nitrato teve maior EUN nas raízes e planta inteira que o 15N-amônio no 15º DAAF. Isso indica que a cana-de-açúcar pode aproveitar eficientemente as duas formas minerais de N, embora o aproveitamento do amônio seja mais rápido. / The use of different fertilizers and rates of nitrogen (N) can increase the N use efficiency (NUE) in sugarcane ratoon (Saccharum spp.), sustaining high yield levels, profitability and environmental protection in long-term. Thus, field and greenhouse studies were performed with the following objectives: (i) evaluate the effect of fertilizer-N management and ratoon crop cycles on sugarcane yield, technological parameters, biomass accumulation, nutrient content, temporal variation in soil chemical properties and soil nutrient balance; (ii) evaluate the biomass production, metabolism and nutrient acquisition of sugarcane plants cropped in nutrient solution, with solely or combined supply of ammonium and nitrate as N sources; (iii) evaluate the NUE of 15N-ammonium (15NH4NO3), 15N-nitrate (NH415NO3), and 15N-amide [(15NH2)2CO] applied to sugarcane under field conditions and the NUE of 15N-ammonium and 15N-nitrate applied to seedlings sugarcane under nutrient solutions. In the field, N fertilizers were replicated in the same experimental plots (static plots) in subsequent years (four or five ratoons) and the management of N-fertilizer, which included fertilizers and N rates, resulted in lack of influence on cane and sucrose yield at Site 1 (Typic Hapludox). However, at Site 2 (also Typic Hapludox), the N treatments AN100 and CAN100 [ammonium nitrate (AN) and calcium ammonium nitrate (CAN), both at a rate of 100 kg N ha-1] provided the highest cane and sugar yield as compared to the remaining treatments. Overall, at both sites, CAN150 (150 kg N ha-1) resulted in the highest biomass accumulation and N and K content by sugarcane. In addition, while the control (no N added) had the lowest biomass accumulation and nutrient content (except for P), the soil nutrient balance in this treatment was relatively neutral, after years of sugarcane cultivation. Under controlled conditions, NH4+-fed plants presented lower biomass accumulation, nutrient content and leaf area than the other treatments (different NO3-/NH4+ ratios and NO3--fed plants), indicating that this N form, when applied solely, was not effective for the proper plant growth. The highest NUE was obtained with NO3--fed plants, which also had the highest production of dry biomass, leaf area, nutrient accumulation, photosynthetic activity, and growth of the root system. The use of 15N-nitrate and 15N-ammonium indicated that there was no difference in NUE by plants in the field. In contrast, the NUE of 15N-ammonium was greater than 15N-nitrate during the 1st, 4th and 7th day after fertilizer application (DAFA), under controlled conditions. However, the use of 15N-nitrate had greater NUE in roots and whole plant than 15N-ammonium in the 15th DAFA. It can be concluded that sugarcane can use both N forms although the recovery of NH4+ was faster than NO3-.

Saccharum spp.

Absorção de nutrientes

Amônio

Doses de N

Eficiência de uso de N

Fontes de N

Nitrato

Técnica isotópica

Saccharum spp.

Ammonium

Nitrate

Nitrogen use efficiency

Nutrient content

Soil nutrient balance

Sugarcane yield

Avalia??o do crescimento, necessidade h?drica e efici?ncia no uso da ?gua pela cultura do piment?o (Capsicum annuum.L), sob manejo org?nico nos sistemas de plantio com preparo de solo e direto - Seropedica, RJ / Evaluation of the vegetal growth, hydric necessity and water use efficiency by bell pepper crop (Capsicum annum. L.) under organic management in system of seeding with prepare soil and no till cropping system.

Pereira, Jo?o Batista Alves

21 February 2006

Made available in DSpace on 2016-04-28T14:58:35Z (GMT). No. of bitstreams: 1 2006-Joao Batista Alves Pereira.pdf: 1832144 bytes, checksum: 36798c7d302cc3a5d500e230c9f5af03 (MD5) Previous issue date: 2006-02-21 / Evaluation of the vegetal growth, hydric necessity and water use efficiency by bell pepper crop (Capsicum annum. L.) under organic management in system of seeding with prepare soil and no till cropping system. This work was conducted in the experimental area of SIPA (Integrated system of agro ecological production), at the county of Serop?dica RJ, with the aim of valuate the growth , the water needs, and the efficiency of the use of the water by the bell pepper culture (Capsicum annuum. L ), at the conventional (PC) and the direct systems of soiling. The conventional system consisted of soil prepare with rotational hoe tied to a micro tractor, and the direct soiling, being done after the occupation of the area with a combination of Sorghum bicolor and Crotal?ria acroleura, that was grazed at the transplantation of the bell pepper s seedlings without previous soil preparation. The same fertilization and cultural practices permitted by the agro ecological handling, was used in both systems. The two systems tested, received sprinkler irrigation, and the determination of the water s blade, was made by monitoring with TDR (Time Domain Reflectometry), calibrated for the soil conditions of the experimental area. The splits were also monitorated by a tensiometer at a 50 cm. deep. Collects were made at intervals of 14 days, with the aim of foliar area evaluation, biomass accumulation by the parts of the plant, along the entire cycle, being also evaluated the crop production at the two systems of soiling. By the adjustment of the IAF (Foliar Area Indices ) and the biomass accumulated by the plant at the two systems of planting in function of accumulated day-degree (GDA), was verified that 1533 GDA was necessary to complete the productive cycle, reaching the top of accumulated biomass at 1059 and 1148 GDA, at PC and PD respectivement. There were no differences between the systems of planting, in respect of the growth rate and the productivity, however the PD system gave less competition between spontaneous vegetation and the bell pepper crop, reducing in 60% the necessity of hand labor at the firsts weddings. The PD system raise the efficiency of the use of water (EUA) by the crop reducing in 47,5 mm. the blade applied during its cycle, in relation of PC. The irrigation handling using TDR, provide an meaning EUA of 4,4 Kg.m-3, above the means of 1,5 to 3,0Kg.m-3, recommended by Doorenbos & Kassam (1994). The culture coefficients (Kc) recommended for the bell pepper crop, were evaluated together with the calculated coefficients using some methodologies proposed in this work, and was noted that the estimated Kc s values of the production cycles (ETc cycle) and by the Kc curve (graphic ETc) estimated during the culture cycle, were more appropriated for the calculation of the evapotranspiration of the crop. The estimation of reference evapotranspiration (ETo), by the pan class A method, made possible means close to those estimated by the Penman-Monteith model witch is recommended by FAO as standard. Therefore, the pan class A method, can be utilized in the estimated ETo, at same conditions of the experiment when there are no data of climate for the Penman-Monteith model use. Associated tensiometry and TDR for irrigation management, showed to be an essential practice when looking for raising the efficiency of the use of water. / Este trabalho foi realizado na ?rea experimental do SIPA (Sistema Integrado de produ??o Agroecol?gica), localizada no munic?pio de Serop?dica-RJ, com o objetivo de avaliar o crescimento, as necessidades h?dricas e a efici?ncia no uso da ?gua pela cultura do piment?o (Capsicum annuum. L), nos sistemas de plantio convencional (PC) e direto (PD). O sistema convencional consistiu de preparo de solo com enxada rotativa acoplada a micro-trator e o plantio direto, na ocupa??o da ?rea com pr?-cultivo, utilizando o cons?rcio Sorghum bicolor e Crotal?ria acroleura, os quais foram ro?ados por ocasi?o do transplante das mudas de piment?o, sem o preparo pr?vio do solo. Em ambos os tratamentos a cultura recebeu a mesma aduba??o de cova e tratos culturais permitidos pelo manejo agroecol?gico. Nos dois sistemas de plantio a cultura foi irrigada por aspers?o, e a determina??o das l?minas aplicadas, foi realizada atrav?s do monitoramento com TDR (Reflectometria no dom?nio do tempo), calibrado para as condi??es de solo da ?rea experimental. As parcelas foram monitoradas tamb?m por tensi?metro no perfil de 50cm de profundidade. Foram realizadas coletas em intervalos de 14 dias com a finalidade de avaliar a ?rea foliar e acumulo de biomassa pelas partes da planta, durante todo o seu ciclo, sendo avaliado tamb?m a produ??o pela cultura nos dois sistemas de plantio. Por meio do ajuste do IAF e da biomassa acumulada pela planta nos dois sistemas de plantio em fun??o de graus-dia acumulado (GDA), constatou-se que s?o necess?rios 1533 GDA para que a planta complete o seu ciclo produtivo, atingindo o m?ximo de biomassa acumulada aos 1059 e 1148 GDA, no PC e PD, respectivamente. Os sistemas de plantio n?o diferiram significativamente entre si com rela??o ?s taxas de crescimento e produtividade, entretanto o plantio direto proporcionou menor competi??o da vegeta??o espont?nea com a cultura, reduzindo em 60 % a necessidade de m?o-de-obra nas primeiras capinas. O PD aumentou a efici?ncia no uso da ?gua (EUA), pela cultura, reduzindo em 47,5mm a l?mina aplicada durante o seu ciclo, em rela??o ao PC. O manejo da irriga??o utilizando o TDR, proporcionou a EUA m?dia de 4,4kg.m-3, acima dos valores 1,5 a 3,0kg.m-3 propostos por Doorenbos e Kassam (1994). Os Coeficientes de cultivo (Kc) recomendados para a cultura, foram avaliados juntamente com os calculados por v?rias metodologias propostas neste trabalho, verificando-se que os valores de Kc estimados em fun??o dos ciclos de produ??o (ETc ciclo) e pela curva de Kc (ETc gr?fico) estimados durante o ciclo da cultura, se mostraram mais adequados ao c?lculo da evapotranspira??o da cultura. A estimativa da evapotranspira??o refer?ncia (ETo), pelo m?todo do tanque classe A , possibilitou valores pr?ximos aos estimados pelo modelo de Penman-Monteith recomendado pela FAO como padr?o. Portanto o m?todo do tanque classe A poder? ser utilizado na estimativa da ETo, em condi??es semelhantes a do experimento, quando n?o houver disponibilidade de dados clim?ticos para o uso do modelo de Penman- Monteith. O uso da tensiometria associado ao TDR no manejo de irriga??o revelou ser uma pr?tica indispens?vel, quando se almeja aumentar a efici?ncia no uso da ?gua.

cultura do piment?o

an?lise de crescimeto

necessidade h?drica

coeficientes de cultivo

efici?ncia do uso da ?gua

bell pepper crop

growth analyze

hydric necessity

crop coefficients

water use efficiency

Fertilização nitrogenada no consórcio milho - braquiária em solos de clima tropical úmido no sistema de integração lavoura-pecuária / Nitrogen fertilization in intercropping corn and palisadegrass at weathered soils in crop-livestock integration system

Almeida, Rodrigo Estevam Munhoz de

18 February 2014

O sistema integração lavoura pecuária (ILP) atende muitas diretrizes para estabelecer um manejo sustentável de produção agropecuária. Consiste em integrar na mesma área, a produção agrícola e pecuária de forma que haja o cultivo de grãos e estabeleça uma pastagem para a criação de animais. O consórcio de milho com braquiária é uma tecnologia utilizada para se atingir os objetivos da ILP. Trata-se de técnica de cultivo de milho junto com a braquiária sem prejuízo ao milho, e que a braquiária possa se estabelecer na área após a colheita do milho. A eficiência da adubação nitrogenada (EAN) na cultura do milho é discutida na literatura em trabalhos que utilizaram fertilizantes marcados com 15N. Os dados são variados pelo motivo do nitrogênio ter dinâmica complexa no sistema produtivo. Trabalhos que avaliaram a EAN no consórcio de milho com braquiária são escassos na literatura internacional, e não se sabe quanto do fertilizante nitrogenado aplicado é absorvido pela planta forrageira, e se é necessário um aumento da dose para não ocorrer falta de nitrogênio neste sistema de produção. Esta tese foi realizada com os seguintes objetivos (i) avaliar a influência da braquiária no aproveitamento do fertilizante nitrogenado, em razão das formas de implantação do consórcio milho - braquiária utilizadas no Brasil, (ii) avaliar a eficiência do N proveniente de fertilizante de liberação gradual, (iii) verificar a possibilidade da aplicação a lanço de ureia revestida. A primeira pesquisa foi desenvolvida nas cidades de São Desidério-BA e Piracicaba-SP, e foi comprovado que a presença da braquiária não afetou a produtividade de milho nem a recuperação do 15N-fertilizante. As formas recomendadas para implantação do consórcio de milho com braquiária são: (i) braquiária semeada a lanço antes da semeadura do milho; (ii) braquiária no centro das entrelinhas de milho; (iii) braquiária junto com o fertilizante de semeadura do milho, (iv) braquiária junto com o fertilizante de cobertura incorporado nas entrelinhas. Não é necessário aumentar a dose do fertilizante nitrogenado em sistema de milho consorciado com braquiária, uma vez que a braquiária absorve no máximo 4,3 kg ha-1 do N-fertilizante. A segunda pesquisa foi realizada nas cidades de Taquarituba-SP e Uberlândia-MG, e demonstrou que a produtividade de milho e o acúmulo de N não variam com o uso de ureia de liberação controlada aplicadas a lanço e incorporada em relação à ureia comum. As ureias de liberação controlada não promovem maior recuperação do 15N-fertilizante pelo milho e pela braquiária em relação à ureia comum, nem a produção de biomassa da braquiária. O N do fertilizante absorvido pela braquiária consorciada com milho é menos de 1% de todo N acumulado no sistema, e no máximo 2% do N-fertilizante aplicado. As ureias de liberação controlada não viabilizam a aplicação a lanço, e dependem das mesmas condições climáticas que a ureia comum para obterem bom desempenho. / Crop-livestock integration system (CLI) attends many guidelines for establishing a sustainable agricultural production. CLI consists in integrating agricultural and livestock production in the same area, in order to establish a pasture for grazing animals after a grain production. Intercropping corn and palisadegrass is a technology used to obtain CLI objectives. In this technique the palisadegrass is cropped together with corn without affecting corn yield, and after harvest the palisadegrass grows in the area in order to form a pasture. Studies that evaluated nitrogen use efficiency (NUE) in maize in crop systems with labeled 15N-fertilizer shows varied data. This is due to nitrogen\'s complex dynamics in the production system. However, studies that evaluated NUE in corn intercropped with palisadegrass are scarce in the literature, and it is unknown how much of nitrogen fertilizer applied is uptake by the palisadegrass, and if an increase in nitrogen rate is necessary to avoid lack of nitrogen in production system. The aims of this thesis was to evaluate: (i) the influence of palisadegrass in the use of nitrogen fertilizer, according to forms of implantation of palisade grass used in Brazil, (ii) the efficiency of N from gradual release fertilizer,(iii) the viability of broadcast application of coated urea on intercropping system. The first study was conducted in the sites of Sao Desidério-BA and Piracicaba-SP, and it demonstrated that the presence of palisadegrass did not affect corn yield neither 15N-fertilizer recovery. Intercropping system can be established by the followings forms: (i) palisadegrass broadcasted before maize sown, (ii) placed between the rows of maize, (iii) palisadegrass applied together with corn fertilizer, (iv) with topdressing fertilizer in furrows. It is not necessary increase N rate in the intercropping system because palisadegrass uptakes at most of 4.3 kg ha-1 of N-fertilizer. The second research was conducted in two sites, Taquarituba-SP and Uberlândia-MG, and demonstrated that the use of coated urea did not differ in corn yield and N uptake in relation to the common urea, either when it was incorporated or broadcast applied. The coated urea neither promotes better recovery of the 15N-fertilizer by corn and braquiária in relation to the common urea, nor increases the palisadegrass biomass production. Nitrogen fertilizer uptake by palisadegrass represents less than 1% of total N uptake in the intercropping system, and a maximum of 2% of N-fertilizer applied The slow release urea does not enable the broadcast placement, and its efficiency depends upon the same climatic conditions of the common urea.

Brachiaria spp.

Brachiaria spp.

Urochloa spp.

Urochloa spp.

15N - labeled nitrogen

Aplicação a lanço e incorporada

Broadcast and in furrow placement

Eficiência da adubação nitrogenada

Nitrogen use efficiency

Nitrogênio marcado 15N

Slow release fertilizer

Ureia de liberação controlada

Understanding constraints to cocksfoot (Dactylis glomerata L.) based pasture production

Mills, Annamaria

January 2007

This research examined the mechanisms by which temperature, water availability and nitrogen (N) affect the dry matter (DM) yield potential of cocksfoot (Dactylis glomerata L.) dominant pastures. The experiment was a split plot design with main plots of fully irrigated (I) or dryland (D), sub-plots of N fertiliser at 800 kg N/ha in 2003/04; and 1600 kg N/ha in 2004/05 (+N) or 0 kg N/ha (-N). The potential environmental yield of an established 8 year old cocksfoot dominant pasture was 21.9 t DM/ha/y from I+N pastures compared with 9.8 t DM/ha by I-N pastures and 15.1 t DM/ha/y by D+N pastures. The lowest yields were from dryland pastures with no N which produced 7.5 t DM/ha/y in 2003/03 and 5.0 t DM/ha/y in 2004/05. The effect of seasonal temperatures on the DM production, when periods of water stress were excluded, was quantified using thermal time accumulated above a base temperature of 3°C as 7.0 kg DM/°Cd/ha for N fertilised pastures and 3.3 kg DM/°Cd/ha for pastures with no N. The 2.5 t DM/ha difference in yields of D-N pastures in 2003/04 and 2004/05 was the result of the duration, extent and timing of the water stress period. In both years the critical limiting deficit (DL) was calculated as 78 mm from the soil moisture deficit in the 0-0.8 m soil layers. Beyond DL yield decreased at a rate of 1.45%/mm in +N and –N pastures, relative to fully irrigated control pastures. Yields of D+N and D-N pastures were similar during periods of water stress with 0.4±0.1 t/DM/ha produced during the rotation ending 30/12/2003. This was less than from either the I-N (1.2 t DM/ha) or I+N (3.5 t DM/ha) pastures due to the reduction in the amount of photosynthetically active radiation intercepted by the canopies of the dryland pastures. However, in the rotation ending 2/5/2004, after autumn rain alleviated drought conditions, yield of the D+N pasture was 2.1 t DM/ha compared with 1.7 t DM/ha by I+N pastures. The effect of N on yield was described using a nutrition index which showed that as DM yield increased N% in the herbage declined. This is a function of the ratio between metabolic and structural N requirements rather than caused by ontogeny alone. Specific leaf N was determined at two harvests and appeared constant at a given point in time (1.0-1.6 g N/m² leaf). In contrast, specific pseudostem N increased from 0.8-1.0 g N/m² pseudostem at an NNI of 0.4 in –N pastures to 2.6-3.0 g N/m² pseudostem at an NNI of 1.2 in the +N pastures. Differences between the yields of +N and –N pastures were caused by differences in radiation use efficiency (RUE) as determined by the linear relationship (R²=0.76) between RUE and the nitrogen nutrition index (NNI). In this thesis, empirical relationships for the effects of temperature, water availability and N were derived and the physiological mechanisms which underlie these descriptions were identified. These relationships provide clear and simple explanations of the effects of environmental variables on the productivity of cocksfoot based pastures which will enhance understanding of the benefits and limitations of cocksfoot, particularly in dryland farming systems.

cocksfoot

Dactylis glomerata

leaf area index

nitrogen

orchardgrass

radiation interception

radiation use efficiency

temperature

water stress

Dynamique environnementale en zones sahélienne et soudanienne de lAfrique de lOuest : Analyse de l'évolution et évaluation de la dégradation du couvert végétal/ Environmental dynamic in the Sahelian and Sudanian zone of West Africa: Temporal analysis and assessment of vegetation cover degradation.

Hountondji, Yvon Carmen

23 June 2008

In order to understand the dynamics of desertification after the 1980s droughts, the trends and changes of photosynthetically active fraction of the vegetation cover of the semi-arid region of West Africa have been analyzed across three ecoclimatic entities. This study focuses on six countries (Senegal, Mauritania, Mali, Burkina-Faso, Niger and Benin) that reflect quite well the human and environmental context of semi-arid regions. The main objective of this thesis is to check in the before-mentioned biophysical and human context, if the state of the vegetation improves because of more favourable rainfall conditions, or if, conversely, the long environmental deterioration during recent decades has a healthy dose of irreversibility for several years. The process of investigation proceeds in three stages defined by geographical scales and a geoclimatic gradient. At the regional level, we compared vegetation productivity data from 1982-1999 time series of NOAA-AVHRR NDVI data to rainfall data. We analyzed data from 315 rain gauges distributed across five countries (Senegal, Mauritania, Mali, Burkina-Faso and Niger) with annual average isohyets ranging from 100 to 900 mm. For trends analysis, we used the ratio of the integrated vegetation index (iNDVI) during the crop-growth period (June to October) to the May to October sum of rainfall (RR). This ratio (iNDVI/RR), a proxy of the Rain Use Efficiency, is widely used by ecologists as an indicator for detecting desertification processes. Overall, our results show a significant increase of the net primary production as a response of post-drought rainfall increase. However, the trends of iNDVI/RR ratio suggest that most of the studied stations (54%) in sahelian and sahelo-sudanese belts were stable and 31.4% showed strong to very strong negative change in iNDVI/RR ratio, while 13.3% of the stations showed a moderate decrease and only 1.3% showed a positive trend. At the country level, similar trends were recorded throughout 128 stations in Burkina Faso located between the 500 mm and 1100 mm isohyets. In fact, more than half the studied stations showed a stability of iNDVI/RR ratio. However, 39.8% of them show a negative trend from low to high, while only 2.4% of them show a slight positive trend. In addition, a comparison with more detailed local case studies confirmed these observed trends. However, the obtained results for wetter stations in the southern part of the country should be taken with precaution, as the relationship between NDVI and rainfall tends to weaken when annual rainfall is higher than 1000 mm. Overall, the negative trends highlight a gradual decline in plant productivity. These results recorded in 44.7% of the analyzed stations may reflect ongoing desertification processes in the sahelian and sahelo-sudanian zones over the past two decades. At the local level, a structural characterization of woody units in three bioclimatic regions of the sudanian zone (900 mm 1200 mm) in the north of Benin was conducted to assess their degradation status. We recorded the structural characteristics of stands (basal area, density), species diversity as well as disturbances type and intensity. Multivariate analysis revealed a gradient of productivity between the three regions: there was a high diversity of woody stands in the south-sudanian sector, while the north-sudanian and sudano-sahelian sectors were dominated by savannas and shrub, which had low productivity. The productivity gradient is influenced by a disturbance gradient suggesting that the decline in productivity is stronger from south-sudanian to the sudano-sahelian region. In addition, the spatial component of the observable changes in vegetation cover has been mapped by remote sensing in a restricted area of the sudanian zone in northern Benin with SPOT-XS data over the period 1986-2005. Over the past two decades, 19.6% of the woody stands have completely disappeared; 12.9% of this extinction of woody stands was due to deforestation, and 13.9 % due to degradation processes. In contrast to these trends, 21.8% of the study area were stable, while less than a third (31.7%) of the area were experiencing woody recovery (reforestation). The analysis also reveals significant disparities in the rates of change of the identified land use class units. These variations are more pronounced for the woody units and agricultural land than in villages. These results suggest that land cover degradation throughout the study area is primarily due to anthropogenic factors (livestock and agricultural expansion, logging, breeding). In fact, this area is a preferred destination for agricultural migrants fleeing the unpredictable climatic conditions of the drier semi-arid areas. Overall, our results highlight the rapid decline of vegetation resources, challenging assumptions that the impact of ongoing desertification processes is mixed, outside of the arid and semi-arid regions of West Africa. The developed framework is easily reproducible and allows the implementation of a reliable diagnosis on the state of the vegetation cover from accessible and inexpensive data. Its implementation should facilitate the development of managerial techniques for better assistance to the poor, especially vulnerable to the gradual degradation of their environment.

Rainfall/ Precipitation

Trend analysis/ Analyse de Tendance

SPOT

NDVI

AVHRR-NOAA

Sahel

West Africa/ Afrique de l'Ouest.

Benin

Desertification/ Desertification

Physiological mechanisms involved in water use efficiency in grapevines

Tomás Mir, Magdalena

02 July 2012

La sequera és una de les majors limitacions per a l’agricultura en general, factor que pot incrementar d’acord amb les prediccions del canvi climàtic. Per això, reduir l’ús de l’aigua en el reg i augmentar l’eficiència en l’ús de l’aigua (EUA) constitueix una de les majors prioritats per aconseguir una agricultura sostenible. L’EUA és un balanç entre guanys de biomassa i les despeses d’aigua. Aquesta Tesi s’ha centrat en l’estudi de 3 dels processos fisiològics que afecten a l’ús de l’aigua i a la producció de la planta en el cas de la vinya, i que per tant poden ser considerats factors potencials per millorar l’EUA: (1) conductància del mesòfil, (2) transpiració nocturna (3) respiració. Els resultats d’aquesta Tesi revelen que la conductància del mesòfil i la respiració són els principals components per millorar l’EUA permetent millorar l’assimilació de carboni o minimitzant les pèrdues del carboni fixat per la fotosíntesis

Fisiologia vegetal

57

58

A simple net ecosystem productivity model for gap filling of tower-based fluxes

Zisheng, Xing

January 2007

In response to global climate change, many important earth-systems-oriented science programs have been established in the past. One such program, the Fluxnet program, studies the response of world forests and other natural ecosystems by measuring biospheric fluxes of carbon dioxide (CO2), water vapour, and energy with eddy-covariance (EC) techniques to assess the role of world ecosystems in offsetting increases in CO2 emissions and related impacts on global climate. The EC methodology has its limitations particularly when weather is inclement and during system stoppages. These limitations create non-trivial problems by creating data gaps in the monitored data stream, diminishing the integrity of the dataset and increasing uncertainty with data interpretation. This Thesis deals with the development of a parsimonious, semi-empirical approach for gap filling of net ecosystem productivity (NEP) data. The approach integrates the effects of environmental controls on diurnal NEP. The approach, because of its limited number of parameters, can be rapidly optimized when appropriate meteorological, site, and NEP target values are provided. The procedure is verified by applying it to several gap-filling case studies, including timeseries collected over balsam fir (Abies Balsamea (L.) Mill.) forests in New Brunswick (NB), Canada and several other forests along a north-south temperaturemoisture gradient from northern Europe to the Middle East. The evaluation showed that the model performed relatively well for most sites; i.e., r2 ranged from 0.68-0.83 and modelling efficiencies, from 0.89-0.97, demonstrating the possibility of applying the model to forests outside NB. Inferior model performance was associated with sites with less than complete input datasets.

Zisheng Xing

temperature and moisture effects

parsimonious

parameterization

numerical methods

environmental gradients

ecosystems

light use efficiency

gross productivity

flux Canada

tower-based flux

soil moisture control

temperature control

numerical modelling

flux

carbon flux

gap filling

Net ecosystem productivity

Analysis of the cost effectiveness of alternative policies and technologies to manage water extractions by the oil sands sector along the lower Athabasca River

Mannix, Amy Elinor

Unknown Date

No description available.

Industrial water-use

Oil sands

Athabasca River

Cost effectiveness

Economic analysis

Policy options

Technology options

Storage

Consolidated tailings

Water trade

Price with refund

Water management

Water-use efficiency