Academic literature on the topic 'Consecutive nitrogen fertilization'

Abstract: The objective of this work was to evaluate the effect of nitrogen fertilization on the mineral composition of leaves, initial growth, and yield of peach (Prunus persica) tree advanced selections grown at a high-planting density. The experiment was carried out between 2012 and 2015 in a randomized complete block design, with a combination of advanced selections of the 'Cascata 1513' and 'Cascata 1067' peach trees and of N fertilization doses (0, 30, 60, and 120 kg ha-1 N). Green weight after pruning, diameter, and increase of trunk diameter, canopy volume, plant height, branch length, number of buds per centimeter of shoot, chlorophyll index, leaf area, rust incidence, average production, number of fruit, and mass of fruit were evaluated. Genotype affects the vegetative growth and productive performance of peach trees. The application of N to dense peach orchards promotes a greater vegetative growth of the plants and increases the content of the nutrient in leaves. The initial production is affected by N fertilization. The recommendation of N fertilization made to date is insufficient for peach trees at high-density management systems of production.

Broccoli quality in British Columbia can vary with season and with the farm site on which it is grown. One major management difference between farms is nitrogen fertilization rate. This work was conducted to determine the effect of nitrogen fertilization (0, 125, 250, 375, 500 and 625 kg N ha−1) and growing season (three plantings in 2 consecutive years) on vitamin C content, head size and storability of broccoli (Brassica oleracea var. Italica, 'Emperor'). The climatic conditions during crop growth and development had a greater overall effect on vitamin C content, head diameter and head weight than nitrogen fertilization. Weight and vitamin C losses during storage in the first year were not affected by nitrogen fertilization rates. Moderate nitrogen application rates of 125 and 250 kg N ha−1 in all three plantings produced a head size considered optimal for marketing. Key words: Postharvest, vegetable quality, climatic conditions

The objective of this work was to evaluate the agroindustrial production of sugarcane (millable stalks and sucrose yield) after successive nitrogen fertilizations of plant cane and ratoons in a reduced tillage system. The experiment was carried out at Jaboticabal, SP, Brazil, on a Rhodic Eutrustox soil, during four consecutive crop cycles (March 2005 to July 2009). Plant cane treatments consisted of N-urea levels (control, 40, 80, and 120 kg ha-1 N + 120 kg ha-1 P2O5 and K2O in furrow application). In the first and second ratoons, the plant cane plots were subdivided in N-ammonium nitrate treatments (control, 50, 100, and 150 kg ha-1 N + 150 kg ha-1 K2O as top dressing over rows). In the third ratoon, N fertilization was leveled to 100 kg ha-1 in all plots, including controls, to detect residual effects of previous fertilizations on the last crop's cycle. Sugarcane ratoon was mechanically harvested. A weighing truck was used to evaluate stalk yield (TCH), and samples were collected in the field for analysis of sugar content (TSH). Increasing N doses and meteorological conditions promote significant responses in TCH and TSH in cane plant and ratoons, in the average and accumulated yield of the consecutive crop cycles.

Mature `Picual' olive (Olea europaea L.) trees growing in two different localities of Córdoba and Jaén provinces, southern Spain, were subjected to annual applications of 0, 0.12, 0.25, 0.50, or 1.0 kg N/tree in the Cordoba's experiment, and to 0 or 1.5 kg N/tree in the Jaén's experiment. Nitrogen was applied 50% to the soil and 50% through foliar application in Córdoba, and 100% to the soil in Jaén. Three years after the initiation of treatments, when the trees showed differences among them in nitrogen content, fruit were sampled at maturity from each experimental tree during six consecutive seasons to determine the effect of nitrogen fertilization on olive oil quality. Tree nitrogen status was always above the threshold limit for deficiency even in control trees, indicating that most treatments caused nitrogen over fertilization. Nitrogen in excess was accumulated in fruit and, consequently, polyphenol content, the main natural antioxidants, significantly decreased in olive oil as nitrogen increased in fruit. The decrease in polyphenols induced a significant decrease in the oxidative stability of the oil and its bitterness. Tocopherol content, on the contrary, increased with nitrogen application, mainly by an increase in α-tocopherol, the main component in the olive oil. No effect was found on pigment content, particularly carotenoid and chlorophyllic pigments, neither on fatty acid composition.

The influence of K2O (0, 40, 80, 120 kg ha-1) at varying rates of N application (0, 30, 60 kg ha-1) at planting, on panicle blast (Pyricularia grisea (Cooke) Sacc.) was studied in a field experiment conducted during three consecutive years with the upland rice cultivar Douradão. Panicle blast severity decreased with increasing rates of potassium in the absence of nitrogen (N0). The relationship between panicle blast and K rates was quadratic at 30 kg ha-1 of nitrogen. Significant response to K fertilization was not obtained at 60 kg ha-1 of nitrogen in relation to panicle blast severity.

Fertilizers are commonly applied to improve the yield and quality in orchards. But unbalanced fertilization negatively affects the nutrient contents of the fruits. Fruits with low energy and high mineral and vitamin contents are significant foods for human nutrition and human health. This study was carried out with ‘0900 Ziraat’ sweet cherry cultivar grafted on ‘Gisela 5’ rootstock in two consecutive years. The effects of different nitrogen (N) and Potassium (K) doses on nutrient content of fruits were investigated. Different doses of N (0, 50, 125 and 250 g N tree-1) and K (0, 50, 125 and 250 g K2O tree-1) were applied beneath the tree canopy in 6 replications and 1 tree in every replication in two consecutive years. Fruit samples were harvested from each tree and fruit colour, firmness, cracking index and nutrient contents (N, P, K, Ca, Mg, Fe, Zn and B) were determined. Fruit N content, N:K ratio, L*, a*, C* and firmness values increased with increasing N doses. While K fertilization did not have significant effects on K content and N:K ratio, it negatively influenced the N content of the fruits. It was concluded that N fertilization directly influenced fruit quality attributes, but K fertilization did not have any significant effects on fruit quality parameters.

SummaryThe effects of phosphorus enrichment of Azolla inoculum and phosphorus fertilization during intercropping on the growth, nitrogen fixation and phosphorus content of Azolla caroliniana and the grain yield, straw yield and nitrogen uptake of rice were studied for four consecutive seasons. The phosphorus-enriched Azolla maintained a higher plant phosphorus content and produced a greater biomass and nitrogen yield than the unenriched Azolla. Application of phosphorus during intercropping significantly increased the dry weight, nitrogen yield and phosphorus content of both unenriched and phosphorus-enriched Azolla. The differences between the enriched and unenriched Azolla declined as increasing levels of phosphorus were applied during intercropping. The grain and straw yields and nitrogen uptake of rice were increased both by phosphorus-enrichment of Azolla inoculum and by phosphorus fertilization during intercropping.La gestión de fósforos para la siembra simultánea del Azolla y el arroz

Aim of study: To evaluate agronomic performance and changes on soil chemical properties in two types of managements: conventional or sustainable.Area of study: Principality of Asturias, Spain.Material and methods: On a loam-clay texture soil, three winter forage legumes (faba bean, red clover and white lupin), in monoculture or mixed with Italian ryegrass and with organic fertilization (sustainable management) versus Italian ryegrass in monoculture and inorganic fertilization (conventional management) were evaluated during three consecutive years. After the harvest in spring, the rotations were completed with maize crop with the purpose to evaluate the effect of the sustainable management on forage yield and soil chemical parameters.Main results: The results showed that faba bean and red clover in monoculture and mixed with Italian ryegrass had better edaphic quality than Italian ryegrass in monoculture, and white lupin in monoculture or mixed with Italian ryegrass. Faba bean in monoculture and mixed with Italian ryegrass, both with organic fertilization, could be competitive crops since both had yields comparable to Italian ryegrass in monoculture with inorganic fertilization.Research highlights: Current agricultural practice could be changed for a more sustainable management system, including organic fertilization and legume crops.

Fertilization is a common management measure for the restoration of degraded grasslands. In order to investigate whether fertilization can improve the severely degraded alpine meadows, we conducted a fertilization experiment on the Tibetan Plateau that began in 2008. The treatments were nitrogen (N) addition alone (50 kg N ha−1 year−1, LN; 100 kg N ha−1 year−1, HN) or combined with phosphorus (P) fertilizer [(50 kg N + 50 kg P) ha−1 year−1, LN+P; (100 kg N + 50 kg P) ha−1 year−1, HN + P] in a severely degraded alpine meadow. Eleven consecutive years of N and P fertilization did not significantly change plant species richness, while fertilization reduced the plant species diversity index, with the most significant reduction in HN and HN + P treatments. LN + P and HN + P treatments greatly increased community coverage and aboveground biomass, while N addition alone, especially the HN treatment, significantly reduced community coverage and aboveground biomass. Fertilization had no effect on edible pastures, while N and P fertilization significantly increased the biomass of forbs. The proportion of forbs to total aboveground biomass was more than 90%, and fertilization had no effect on this proportion. This shows that forbs still have an absolute advantage in the community. In addition, HN, LN + P, and HN + P treatments significantly reduced ecosystem stability. Community aboveground biomass was greatly enhanced in the N and P fertilization treatments, and this was beneficial for the ecosystem quality and soil hydrological functioning. However, fertilization treatments did not improve the community structure with either N addition alone or combined with P fertilizer, which was of little significance in providing forages for the sustainable development of livestock husbandry. To improve the structure of severely degraded alpine grasslands, it is necessary to combine other measures such as cutting the roots of forbs, fencing, or reseeding.

The use of nitrogen fertilization in tropical grasslands is a strategy that may reduce the pressure of livestock production on biome areas with humid forests. The objective of this study was to assess the use of different doses of nitrogen in Guinea grass (Megathyrsus maximus (Jacq.) con. Mombasa) cultivated in the humid tropics. Doses of 0, 10, 20, 30, 40, and 50 kg of N ha−1 application−1 were applied during two consecutive years in experimental plots. The experimental area is located in the northeast of Pará, Brazil, with a predominantly tropical climate according to the Köppen classification. The morphogenic, production, and qualitative characteristics of the forage were evaluated. The morphogenic variables, rate of leaf appearance and rate of leaf elongation, in addition to daily accumulation of forage and crude protein content, increased with increasing doses of nitrogen. The morphological structure of the pasture was not modified. The number of cuts increased, whereas the number of days of recovery decreased, in the rainy season with increasing doses of nitrogen. The use of nitrogen fertilization does not alter the structure of the pasture; however, it improves the morphogenic, production, and chemical characteristics of Guinea grass.

Os fertilizantes nitrogenados desempenham função importante na nutrição e aumento da produtividade da cana-de-açúcar, porém alteram os processos de transformação de C e N do solo. Este trabalho teve por objetivo principal avaliar o efeito da aplicação consecutiva de fertilizantes minerais e orgânicos nas transformações microbianas, na mineralização do N, nos estoques de C, N total e N mineral, e na fertilidade do solo a médio prazo. Foram escolhidas duas áreas cultivadas com cana-de-açúcar no Estado de São Paulo nas quais experimentos com manejo da adubação nitrogenada foram conduzidos desde 2010 e 2011, com reaplicação anual dos tratamentos até 2014. Nestas áreas foi adotado o delineamento estatístico casualizado em blocos com quatro repetições. Os tratamentos foram: controle (sem adubação nitrogenada), adubação com as fontes nitrato de amônio, ureia, composto orgânico e Ajifer&reg; na dose 100 kg ha-1 ano-1 N, e adubação com a fonte YaraBella NitromagTM nas doses de 50, 100, 150 e 200 kg ha- 1 ano-1 N. Para avaliar o efeito dos tratamentos na variação da fertilidade do solo e no teor de N orgânico hidrolisável (N-ISNT), foram realizadas amostragens de solo anuais nestes experimentos nas camadas de 0-20 e 20-40 cm. Para avaliar o efeito dos tratamentos nos processos de transformação do C e N do solo, em 2014 foram coletadas amostras de solo até 100 cm de profundidade nos tratamentos controle, composto orgânico, YaraBella NitromagTM nas doses 100 e 200 kg ha-1 ano-1 N e mata nativa, nas quais foram determinados a densidade do solo e teores de C orgânico, N total e N mineral (N-NH4+ e N-NO3- + N-NO2-). Adicionalmente, amostras da camada de 0-20 cm foram incubadas em laboratório para avaliar a disponibilidade temporal de N e os teores de C e N da biomassa microbiana e sua atividade. Os efeitos da adubação nitrogenada consecutiva foram pouco expressivos nas transformações microbianas, na disponibilidade temporal de N mineral e nos estoques de C e N do solo; entretanto, foi observado acúmulo de N mineral em camadas mais profundas (> 40 cm) para a dose de 200 kg ha-1 ano-1 N. Além disso, a área de mata apresentou melhores atributos microbiológicos e maior estoque de C e N comparado às áreas cultivadas com cana-de-açúcar. Em relação à variação da fertilidade do solo, observou-se que o aumento das doses de N potencializa a acidificação do solo em anos consecutivos, assim como promove diminuição do teor de bases trocáveis. A manutenção da fertilidade do solo, dos atributos microbiológicos, e dos estoques de C, N total e N mineral para produção sustentável de biocombustíveis depende do manejo adequado da fertilização nitrogenada no sistema de colheita dos canaviais sem prévia queima. De forma complementar e paralela a estes trabalhos, foi objeto de estudo a adaptação e validação de métodos colorimétricos na determinação de N inorgânico em extratos de solos tropicais. Os resultados revelaram que é necessário adicionar carvão ativado durante o processo de extração para que os métodos colorimétricos apresentem melhor exatidão e precisão. Recomenda-se utilizar solução extratora de KCl 2,0 mol L-1 e permitir tempo de reação de 30 min. A faixa linear de trabalho mais adequada varia de 0 a 7,5 e 0 a 10,0 mg L-1 de N para leituras de N-NH4+ e N-NO3- respectivamente.<br>Nitrogen fertilizers play an important role in nutrition and increased productivity of sugarcane, however, affect cycling of C and N in the soil. This study mainly aimed to evaluate the effect of the consecutive application of organic and inorganic sources of N in microbial soil transformations, in N mineralization, in C, total N and mineral N stocks, and soil fertility in the medium term. They were chosen two areas cultivated with sugarcane in the State of São Paulo in which experiments with management of nitrogen fertilization have been conducted since 2010 and 2011, with annual reapplication of treatments through 2014. In these areas was adopted the randomized blocks experimental design, with four replications. The treatments were: control (no nitrogen fertilization), fertilization with sources of ammonium nitrate, urea, organic fertilizer and Ajifer&reg; at rate of 100 kg ha-1 yr-1 N, and fertilization with YaraBella NitromagTM source at rates of 50, 100, 150 and 200 kg ha-1 yr-1 N. To evaluate the effect of treatments on the variation of soil fertility and hydrolysable organic-N fraction (N-ISNT), annual soil samples were collected in these experiments at 0-0.2 and 0.2-0.40 m. To evaluate the effect of treatments on soil C and N transformations, soil samples were collected up to 1.0 m depth in the control, organic fertilizers, YaraBella NitromagTM at rates of 100 and 200 kg ha-1 yr-1 N treatments and bushland, in which were determined bulk density and organic C, total N and mineral N (NH4+-N and NO2--N + NO3--N). In addition, soil samples of the 0-0.2 m were incubated in the laboratory to assess the availability of N and the content of C and N microbial biomass and microbial activity. The effects of consecutive nitrogen fertilizer were inexpressive in microbial transformations, in the temporal availability of mineral N and C and N soil stocks; however, it was observed mineral N accumulation in deeper layers (> 0.4 m) at rate of 200 kg ha-1 yr-1 N. Moreover, the bushland showed better microbiological attributes and largest C and N soil stocks compared with areas cultivated with sugarcane. In relation to the variation of soil fertility, it observed that the increase in N rates enhances the soil acidification in consecutive years, and promotes decreased levels of exchangeable bases. The maintenance of soil fertility, the microbiological attributes, and the C, total N and mineral N soil stocks for sustainable biofuel production depends on proper management of nitrogen fertilization on crop system of without burning sugarcane fields. Complementarily and in parallel with these studies, it was the object of study the adaptation and validation of colorimetric methods for the determination of inorganic N in tropical soil extracts. The results revealed that it is necessary to add activated charcoal during the extraction process so that colorimetric methods exhibit better accuracy and precision. It is recommended to use extraction solution of KCl 2,0 mol L-1 and allow 30 min reaction time between addition of reagent and the spectrophotometer reading. The linear working range more suitable varies from 0 to 7.5 and 0 to 10,0 mg L-1 of N for measurement of NH4+-N and NO3--N respectively.