Ecophysiological attributes of hybrid DKB-390 and sthocastic model for predicting grain productivity / Atributos ecofisiológicos do híbrido DKB-390 e modelo estocástico para previsão da produtividade de grãos

AUTOR(ES)
DATA DE PUBLICAÇÃO

2008

RESUMO

Maize is on of the world most important crops, given that the products generated from this cereal are largely used by sectors like starch industry, animal and human nutrition, as well as biomass energy production and refineries. For these reasons, there is frequently a huge interest in knowing the potential adoption of the main available genotypes in relation to the environment in which they will be supposedly subjected. Considering the hybrid DKB-390 under full irrigated conditions, this work has as the central objective to characterize the most important ecophysiological attributes such as leaf area, radiation use efficiency, extinction coefficient, crop coefficients, water use and ear yield components. Additionaly, specif goals were to conceptualize models applicable for both management and planning of maize crops in order to predict the grain productivity contemplated by daily climate incertainties of the driven climate variables (i.e. radiation and temperature) and their correlation, then to achieve the water and nitrogen requirement corresponding to the predicted productivity. A field experiment was carried out, useful information from literature were obtained and reviewed, and models were created towards to support the prediction tools. The following outcomes might be highligthed: (i) under suitable conditions of both nitrogen and water supply, hybrid DKB-390 requires about 573 litters of water per each kilogram of produced grain; (ii) the genotype is significantly responsive to the second nitrogen covering when growing under high plant population and suitable water supply; (iii) the second nitrogen covering has enhanced better leaf area maintainance during grain filling stage; (iv) the second nitrogen covering has led to a better water use efficiency, as well as slightly increased modal values of the number of kernels per row (of ear) and the mass of a thousand kernels; (v) under suitable water supply, averaged extinction coefficient might be generalized as 0.4267 throughout the whole cycle, whereas tending to be higher as the nitrogen supply is restricted; (vi) the radiation use efficiency as calculated as 3.52 g (above-ground dry matter) MJ-1 (intercepted photossyntheticaly active radiation), being smaller as the nitrogen supply is restricted; (vii) some crop coefficients were found for the main phenological stages and may be adopted for irrigation management of hybrid DKB-390, when one aims to not deplet the productivity; (viii) the harvest index (above-ground based) was found about 40% (varying from 37% to 43%) if water and nitrogen are added sufficiently, and is likely to be higher provided that the second covering is not done; (ix) the proposed determinist model has performed well when simulating above-ground dry matter time course and its corresponding grain productivity under full and moderated water deficit conditions; (x) by using Penman-Montheit method, the deterministic model apparently simulates well both daily evapotranspiration and water uses; (xi) through bivariate normal distribution of averaged daily solar radiation and air temperature, the suggested stochastic model has simulated grain productivity in a satisfactory way; and (xii) the suggested stochastic model need to be improved in terms of its water and nitrogen requirement predictability, given that it clearly tends to underestimate the former and overestimate the latter.

ASSUNTO(S)

crop ecophysiology distribution (probability) balanço hídrico modelagem matemática agrometeorologia water balance ecofisiologia vegetal simulação estatística. statistic simulation. maize distribuição (probabilidade) mathematical modelling agrometeorology milho

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