Chlorophyll evaluation methods in Brachiaria brizantha brs Piatã added with poultry litter compost

One of the major limitations for pastures high production is the low fertility of tropical soils. In general, the nutrient reposition through chemical fertilizers increases the cost of production and can unbalance the plant besides the environment pollution. Recycling solid residues from agribusines...

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Bibliographic Details
Main Authors: Alexandre Antonio Pasqualini, Valdinei Tadeu Paulino, Keila Maria Duarte, Flavia Hansen Rosolen, Amanda Menegante Neri
Format: Article
Language:English
Published: Instituto de Zootecnia 2013-12-01
Series:Boletim de Indústria Animal
Online Access:http://revistas.bvs-vet.org.br/bia/article/view/11890
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Summary:One of the major limitations for pastures high production is the low fertility of tropical soils. In general, the nutrient reposition through chemical fertilizers increases the cost of production and can unbalance the plant besides the environment pollution. Recycling solid residues from agribusiness is a sustainable alternative for farmers. Among the residues, the poultry litter (PL) aerobically fermented is a very good bio fertilizer for pastures. The Piatã Grass (Brachiaria brizantha) is a new option for the pasture market and can be used for bovine, equine or ovine. The fast diagnosis of the nutritional stage of this plant, based upon portable methods as the Dualex, measuring leaf light reflectance is a practical alternative.  By this way,  it is possible to offer to the herd high nutritional food, correcting eventual shortage, mainly nitrogen. Nitrogen nutrition is directely related to chlorophyll content in the leaf blade. This study aimed to verify the effects of doses of PL over total chlorophyll, in comparison to two methods of evaluation: Dualex Scientific 4.0 and Spectrophotometer Analysis according to Lichtenthaler &amp; Wellburn (1983). The experiment was conducted in greenhouse conditions, at IZ, Nova Odessa, with a Haplortox soil, between May and July, 2013. Treatments consisted of five compost doses (PL): 0, 20, 40, 60 and 120 Mg ha<sup>-1</sup>, with the following chemical composition (%): 2.88 of N, 3.85 of P<sub>2</sub>O<sub>5</sub>, 2.50 of K<sub>2</sub>O, 9.06 of Ca and 1.16 of Mg. The experimental design was on randomized blocks with five replications. Data were analyzed using the GLM procedure of the SAS program. Chlorophyll data were taken from the third medium of the leaf blade from a third of the expanded leaf from the apical using the Dualex. At the same time, samples were harvested for the Spectrophotometer analyses according to methodology described by Lichtenthaler &amp; Wellburn (1983). Total Chlorophyll amounts were increased with the higher doses of PL, adjusting quadratic to the equations: Chlorophyll-Dualex= -0.003PL<sup>2</sup> + 056PL + 28.9 (R<sup>2</sup>= 0.84), and for Lichtenthaler &amp; Wellburn methods Chlorophyll = -0.003PL<sup>2</sup> + 0.052 PL + 24.8 (R<sup>2</sup>=0.76). Chlorophyll values were similar with both methods used. The Dualex method is faster and easier than the spectrometric method. The use of PL disables the improvement of photosynthetic potential and forage yield. Further studies are necessary to determine the correct use of those organic residues in degraded areas as well as in small production areas.
ISSN:1981-4100