Impact of sugarcane trash on fertilizer requirements for São Paulo, Brazil

The area under mechanized sugarcane (Saccharum spp.) harvesting is expanding in Brazil, increasing the return of trash to the soil. The main questions regarding this management are: (i) after adopting unburned mechanical harvesting, how long will it take to observe decreases in fertilizer requirements, (ii) what will be the magnitude of this decrease and, (iii) the impact in the short run of removing trash for energy purposes in the nutrient cycling? This study aimed to build an N prediction model for long term assessment of the contribution of sugarcane crop residues to sugarcane nutrition and to evaluate the cycling of other nutrients derived from crop residues. Keeping crop residues over the soil will increase soil N stock and N recovery by sugarcane, reaching equilibrium after 40 years with recovery of approximately 40 kg ha-1 year-1 of N. Removing trash for energy production will decrease the potential reduction in N fertilizer requirement. Of the total nutrients in the trash, 75 % of the K2O (81 kg ha-1 year-1) and 50 % of the N (31 kg ha-1 year-1) are in the tops, indicating the importance of maintaining tops in the soil to sustain soil fertility. Because the input data employed in the simulations are representative of the conditions in Southeast Brazil, these results might not be definitive for situations not represented in the experiments used in the study, but the model produced is useful to forecast changes that occur in the soil under different trash management

Impact of sugarcane trash on fertilizer requirements for São Paulo, Brazil

The area under mechanized sugarcane (Saccharum spp.) harvesting is expanding in Brazil, increasing the return of trash to the soil. The main questions regarding this management are: (i) after adopting unburned mechanical harvesting, how long will it take to observe decreases in fertilizer requirements, (ii) what will be the magnitude of this decrease and, (iii) the impact in the short run of removing trash for energy purposes in the nutrient cycling? This study aimed to build an N prediction model for long term assessment of the contribution of sugarcane crop residues to sugarcane nutrition and to evaluate the cycling of other nutrients derived from crop residues. Keeping crop residues over the soil will increase soil N stock and N recovery by sugarcane, reaching equilibrium after 40 years with recovery of approximately 40 kg ha-1 year-1 of N. Removing trash for energy production will decrease the potential reduction in N fertilizer requirement. Of the total nutrients in the trash, 75 % of the K2O (81 kg ha-1 year-1) and 50 % of the N (31 kg ha-1 year-1) are in the tops, indicating the importance of maintaining tops in the soil to sustain soil fertility. Because the input data employed in the simulations are representative of the conditions in Southeast Brazil, these results might not be definitive for situations not represented in the experiments used in the study, but the model produced is useful to forecast changes that occur in the soil under different trash management

Associação de deltametrina com Acarophenax lacunatus e seu impacto sobre o desenvolvimento de Rhyzopertha dominica Association of deltamethrin with Acarophenax lacunatus on development of Rhyzopertha dominica

O objetivo deste trabalho foi avaliar a associação do inseticida deltametrina, aplicado em grãos de trigo, com o ácaro parasita Acarophenax lacunatus e seu impacto sobre o desenvolvimento de Rhyzopertha dominica. Grãos de trigo (13% de teor de água) foram tratados com diferentes doses de deltametrina (0,00, 0,125, 0,25, 0,375, 0,50, 0,625, 0,75, 0,875 e 1,00 mg i.a. kg-1). As unidades experimentais consistiram de placas de Petri contendo 30 g de grãos tratados, ou não, com o inseticida, infestados com 30 adultos de R. dominica. Cinco dias depois da infestação, foram inoculados cinco ácaros parasitas por unidade experimental, em sete repetições. As unidades experimentais foram armazenadas por 60 dias depois da infestação em câmara climatizada ajustada a 30&plusmn;1&deg;C, 60&plusmn;5% UR e escotofase de 24 horas. A taxa instantânea de crescimento de R. dominica apresentou índices negativos para as doses de deltametrina maiores que 0,25 mg i.a. kg-1. A. lacunatus associado a doses de deltametrina menores que 0,5 mg i.a. kg-1 reduz as fases imaturas de R. dominica.<br>The objective of this work was to evaluate the development of Rhyzopertha dominica on wheat grain treated with the insecticide deltamethrin and infested with the mite Acarophenax lacunatus. The experimental units were Petri dishes containing 30 g of wheat grain (13% moisture content) sprayed with different doses of deltamethrin (0.00, 0.125, 0.25, 0.375, 0.50, 0.625, 0.75, 0.875 and 1.00 mg a.i. kg-1) infested with 30 adults of R. dominica. Five days after the infestation, five mites were inoculated on each experimental unit, in seven replicates. All treatments were maintained under controlled conditions (30&plusmn;1&deg;C, 60&plusmn;5% r.h. and 24 hours scotophase) for 60 days after the infestation. The instantaneous rate of increase of R. dominica was negative under doses higher than 0.25 mg a.i. kg-1. The lowest number of immature R. dominica was observed with the interaction between deltamethrin doses smaller than 0.5 mg a.i. kg-1 and A. lacunatus

Marcação de fitomassa de cana-de-açúcar com aplicação de solução de uréia marcada com15N Sugarcane phytomass labeling with application of 15N-urea solution

O objetivo deste trabalho foi comparar três métodos de aplicação de solução de uréia marcada com15N (15N-uréia ): pulverização foliar, injeção na base do colmo e imersão radicular, a fim de se definir qual seria o mais eficiente na marcação de fitomassa de cana-de-açúcar. O experimento foi instalado na Estação Experimental Apta - Pólo Regional Centro Sul, em Piracicaba, SP. A cana-de-açúcar, variedade SP80 3280, foi plantada em vasos preenchidos com aproximadamente 120 dm³ de Neossolo Quartzarênico de textura arenosa. O delineamento experimental foi inteiramente casualizado, com quatro repetições. A fitomassa de cana-de-açúcar dos três tratamentos, no 11º mês de desenvolvimento, não diferiu estatisticamente, e suas abundâncias de 15N foram superiores à natural, tendo-se verificado a seguinte ordem decrescente de marcação com 15N: parte aérea > rizoma > rizomas+raízes na camada de 0,0-0,2 m > raízes na camada de 0,2-0,4 m > raízes em profundidade maior que 0,4 m. Entre os métodos de aplicação de 15N-uréia, a injeção na base de colmos é o de mais fácil execução, o mais efetivo na marcação da fitomassa e o que apresentou a maior recuperação do traçador (96%). A aplicação foliar é comparável à injeção, somente na marcação e na recuperação do traçador no sistema radicular.<br>The objective of this research was to compare three methods of 15N-urea solutions application: spray on leaf, injection in the plant base stem and root immersion, in order to define the most efficient labeling sugarcane phytomass with 15N method. The experiment was carried out at APTA - Pólo Regional Centro Sul, in Piracicaba, SP, Brazil, and the sugarcane variety SP80 3280 was planted in pots filled out with approximately 120 dm³ of a Typic Quartzipsamment soil. The experiment was conducted in a completely randomized design with four replicates. There were no difference between the methods in the plant parts dry mass, in 11º development month, and their 15N abundances were superior to the natural one, being verified the following decreasing labeling order: aerial part > rhizome > rhizome + roots in the layer 0.0-0.2 m > roots in the layer 0.2--0.4 m > roots in the layer deeper than 0.4 m. Among the 15N-urea solution application methods, the injection in the base stem is the easiest to apply, the most effective in dry mass labeling and the one wich presented the largest 15N tracer recovery (96%). The spray on leaf method is comparable to the injection in the base stem only for the labeling with 15N and tracer recovery for root system