Abstracts

INTRODUCTION

The system of direct seeding is a technique of conservation farming where sowing is carried out without the ploughing and harrowing stages of conventional preparation. For this technique it is necessary to keep the soil always covered with growing plants and crop residue in order to prevent increasing soil erosion (CRUZ, 2008CRUZ, J. C. Cultivo do milho: Sistema plantio direto. Sistemas de produção 2. Sete Lagoas 4 ed. Set. 2008. Disponível em: http://www.cnpms.embrapa.br/publicacoes/milho/mandireto.htm> Acesso em: 03 abr. 2013.
http://www.cnpms.embrapa.br/publicacoes/... ).

This system is based on the production of a large amount of plant mass to cover the soil, on preventing water erosion, on the conservation and improvement of the physical, chemical and biological characteristics of the soil, and on the increase in its water storage capacity (SILVA et al., 2006SILVA, P. R. F. et al. Estratégias de manejo de coberturas de solo no inverno para cultivo do milho em sucessão no sistema semeadura direta. Ciência Rural, v. 36, n. 03, p. 1011-1020, 2006.).

In regions with higher average temperatures, there is great difficulty in implementing direct seeding, due to the difficulty of keeping straw on the ground from one year to another, as it decomposes very quickly (ANDREOTTI et al., 2008ANDREOTTI, M. et al. Produtividade do milho safrinha e modificações químicas de um latossolo em sistema plantio direto em função de espécies e cobertura após calagem superficial. Acta Scientiarum Agronomy, v. 30, n. 01, p. 109-115, 2008.).

Pires et al. (2008)PIRES, R.F. et al. Manejo de plantas de cobertura antecessoras à cultura da soja em plantio direto. Revista Ceres, v. 55, n. 02, p. 094-101, 2008., state that good ground cover should promote the suppression of weeds, as this can lower the costs of control during post-emergence in commercial, spring-summer crops.

According to Sá et al . (2010)SÁ, J. C. M. et al. Crescimento radicular, extração de nutrientes e produção de grãos de genótipos de milho em diferentes quantidades de palha de aveia-preta em plantio direto. Revista Brasileira de Ciência do Solo, v. 34, n. 04, p. 1207-1216, 2010., root development in maize plants benefits from an increase in oat straw in both the surface layer (0 to 0.20 m) and the subsurface layer (0.50 than 1,00 m) of the soil.

The direct-seeding system is a conservational soil management system and so is directly related to biomass left on the ground. The system keeps crop residues on the soil surface, being an important technique for maintaining and restoring the productive capacity of soils, both under conventional management and of degraded areas (TORRES et al., 2005TORRES, J. R. L. et al. Decomposição e liberação de nitrogênio de resíduos culturais de plantas de cobertura em um solo de cerrado. Revista Brasileira de Ciência do Solo, v. 29, n. 04, p. 609-618, 2005.).

To this end, some authors have sought to study how to have straw remain longer as ground cover, besides also increasing the amount of dry matter during production.

One of the techniques that has been employed is known as the Hormesis technique. This teaches that all chemical substances are both poisonous and nonpoisonous, and that it is only the dosage which determines whether they are lethal or not.

Velini (2006)VELINI, E. D. Hormesis: is it an important factor in herbicide use and allelopathy?. Outlook on Pest Management, v. 17, n. 01, p. 29-33, 2006. found that glyphosate causes hormesis in quite distinct crops and species, such as sorghum, soybeans, coffee, eucalyptus, peanuts, maize and pine (Pinus spp.) In general, the response had a more pronounced hormetic effect in woody species, such as Eucalyptus spp. Other authors have observed hormesis with glyphosate in maize crops (SCHABENBERGER et al., 1999SCHABENBERGER, O. et al. Statistical tests for hormesis and effective dosage in herbicide dose-response. Agronomy Journal,Madison, v. 91, p. 713-721, 1999.) and Echinochloa crus-pavonis (WAGNER et al., 2003)WAGNER, R. M.; KOGAN, A. M. Parada Phytotoxic activity of root absorbed glyphosate in corn seedlings (Zea mays L.). Weed Biology Management, v. 03, n. 04, p. 228-232, 2003..

The fact that many herbicides were originally developed as growth regulators, demonstrates the hypothesis of hormesis. Such was the case with glyphosate, whose predecessor, glyphosine, was a compound used as a growth regulator. This herbicide particularly has presented a hormetic effect on various plants, such as increased green matter in maize (WAGNER, 2003WAGNER, R. M.; KOGAN, A. M. Parada Phytotoxic activity of root absorbed glyphosate in corn seedlings (Zea mays L.). Weed Biology Management, v. 03, n. 04, p. 228-232, 2003.), an increase in root dry weight in the soybean (GODOY, 2007GODOY, M. C. Efeitos do glyphosate sobre o crescimento e absorção de fósforo pela soja. 2007. 53 f. Dissertação (Mestrado em Agronomia) - Universidade Estadual Paulista (UNESP) - Faculdade de Ciências Agrárias (FCA), Botucatu, 2007.) and in the phosphorus content of the leaves of the eucalyptus (CARBONARI et al., 2007CARBONARI, C.; MESCHEDE, D. K.; VELINI, E. D. Efeitos da aplicação de glyphosate no crescimento inicial de mudas de eucalipto submetidas a dois níveis de adubação fosfatada. In: SIMPÓSIO INTERNACIONAL SOBRE GLYPHOSATE, 2007, Botucatu. Anais... Botucatu: FEPAF, 2007. p. 68-70.).

The hormetic effect is observed in all groups of organisms, such as bacteria and fungi, higher plants and animals (CALABRESE, 2005CALABRESE, E. J. Paradigm lost, paradigm found: The reemergence of hormesis as a fundamental dose response model in the toxicological sciences. Environ. Pollution, Geneva, n. 138, p. 378-411, 2005.). It may become a tool to be employed in agriculture in general.

The aim of this study therefore was to evaluate the dry matter and agronomic characteristics of a crop of black oats submitted to hormesis.

MATERIAL AND METHODS

The test was carried out in the winter of 2011, at the Lageado Experimental Farm of the School of Agricultural Sciences at UNESP in Botucatu, in the mid-west region of the state of São Paulo, Brazil. The approximate geographical coordinates are 22°51' S and 48°26' W, at an average elevation of 770 meters; the climate is rainy subtropical, with dry winters, type Cfa, according to the Köppen system of classification.

The experiment consisted of 11 treatments and one control, each with four replications, giving a total of 48 lots divided into four randomised blocks (Figure 1).

Figure 1
Layout of the arrangement of treatments and blocks in the field

where C: control (no application); A: Alterbane; SA: Salicylic Acid; GD1: Glyphosate dosage 1 (low); GD2: Glyphosate dosage 2 (medium); GD3: Glyphosate dosage 3 (high); 2.4D1: 2.4 D dosage 1 (low); 2.4D2: 2.4 D dosage 2 (medium); 2.4D3: 2.4 D dosage 3 (high); VD1: Verdict dosage 1 (low); VD2: Verdict dosage 2 (medium); VD3: Verdict dosage 3 (high).

The results obtained were subjected to variance analysis and tested for contrasts. For comparison of the treatment means with the control, Dunnett's test was used at 5% significance. For comparison of the treatment means between themselves, the Scheffé test at 5% significance was used.

According to Vieira and Hoffmann (1989)VIEIRA, S.; HOFFMANN, R. Estatística experimental. São Paulo: Atlas, 1989. 175 p., Dunnett's test should be applied every time it is wanted to compare the treatment means to the control mean only. The Scheffé test should be applied only when the F-test gives significant results. If the value obtained for F is not significant, no contrast would be significant, and therefore application of the Scheffé test is not justified.

In the field, the lots were 10 m long by 4 m wide. Between each lot a space, 5 m by 3 m, was left as a border.

To find the dosages to be applied in each treatment (Table 1), the oat crop underwent tests in the greenhouse, where several subdosages were tested. The results ranged from no result for the lowest subdosages to death at the higher dosages; the three dosages giving the most results were used in this study.

To spray the herbicides in the lots, a CO₂ pressurized backpack sprayer was used, maintaining a constant pressure of 2.0 kgf cm² and equipped with a 2 metre spray bar and four 02 XR 110 VS spray nozzles spaced 0.5 m apart.

In each experimental lot, 3 m were marked out so that there were three rows in each lot where all the evaluations for the area were carried out; the remainder of the lot was used as a border.

To carry out the evaluations, all the plants in the three metres marked out in each lot were collected, and the number of plants, plant dry matter, crop production, number of panicles and panicle size for each plant were evaluated.

Plant height was measured using a graduated ruler, measuring from the ground to the limit of the sheath of the last leaf on the plant.

Once collected, the plants were taken to the Laboratory for Plantability of the Direct Seeding Group of FCA, at UNESP, Botucatu, where the panicle size for the crop was counted and measured using a graduated ruler.

After harvesting, the plants were dried in a forced-air circulation oven at a temperature of 60 °C for 48 hours. The dry matter was then quantified for each plot.

RESULTS AND DISCUSSION

There was a significant effect from the application of subdosages on the dry matter and productivity of the oat crop (Table 2).

Verifying the test for contrasts (Table 3) for the variables of productivity and dry matter, it can be seen that the p-value was equal to zero. In both cases there is significance, so that when applying subdosages of some herbicides, significantly different means for productivity and dry matter are generated.

Verifying the comparison of treatment averages for productivity (Table 4), it can be seen that there is a significant effect for the treatments, Verdict, at medium and high dosages, as well as Salicylic Acid. The treatment employing the herbicide Verdict at high dosage showed a better response compared to the control, with an increase of 130.5 kg ha^-1.

It can be seen that the treatment with Glyphosate at average dosage was shown to inhibit productivity of the black oat crop, presenting an average decrease of 13.25 kg ha^-1 compared to the control.

Looking at the comparison between the treatment averages and the control (Table 5), it appears that there was a significant effect by Dunnett's test for the treatment using Glyphosate at high dosage, which suggests a decrease in dry matter compared to the control.

The data for dry matter in the crop (Table 6) showed a statistical difference between treatments, where it can be seen that the treatment with Glyphosate at high dosage (Glyphosate 3) was the treatment which gave the lowest increase in dry matter, whereas the treatment using 2.4 D at medium dosage (2.4 D 2) had the highest increase in dry matter, of the order of 7,789.75 kg ha^-1. This result demonstrates that application of the product caused stress to the plant, stimulating an increase in dry matter.

When compared with the control (no application), the treatment with 2.4 D at medium-dosage (2.4 D 2) showed an increase of 908.5 kg ha^-1, a similar result to that found by Silva et al. (2010)SILVA, P. I. B. et al. Acumulo de matéria seca de milho e braquiária consorciados em diferentes manejos de plantas daninhas. In: CONGRESSO BRASILEIRO DE PLANTAS DANINHAS, 27., 2010, Ribeirão Preto. Anais... Ribeirão Preto, 2010. p. 2351-2353. who, when working with maize, found that the application of any herbicide at the recommended dosage positively affects the production of dry matter in relation to treatments with no application or of hand weeding. According to the authors, such applications do not affect the crop due to its tolerance to herbicides, giving more effective control of weeds, and thus reducing competition for water, light and nutrients.

In Table 7 can be seen the results for productivity of the crop of black oats for the different treatments. The treatment with the highest productivity was Verdict at low dosage (VD 1), with a productivity of 482 kg ha^-1. Whereas the treatment with Glyphosate at medium-dosage (GD 2) had the lowest productivity. When the treatment with Verdict at low dosage (RV 1) is compared to the control, an increase of 131 kg ha^-1 can be seen. This result has the same origin as the result found for dry matter, but in this case with a different herbicide.

Silva et al. (2012)SILVA, J. C. et al. Efeito hormese de glyphosate em feijoeiro. Pesquisa Agropecuária Tropical, v. 42, n. 03, p. 295-302, 2012. evaluated a bean crop subjected to the application of subdosages of Glyphosate, testing three bean cultivars; in none of them was productivity affected.

Figueiredo et al. (2007)FIGUEIREDO, S. S. et al. Influência de doses reduzidas de Glyphosate no tomateiro (Lycopersicon esculentum). Planta Daninha, v. 35, n. 03, p. 849-857, 2007. found that the application of subdosages of the 378 g ha^-1 dosage of glyphosate, adversely affects development and production in the tomato.

On the other hand, Velini et al. (2008)VELINI, E. D. et al. Glyphosate applied at low doses can stimulate plant growth. Pest Management Science, v. 64, n. 04, p. 489-496, 2008. found stimulated growth in soybeans, maize, Eucalyptus grandis, Pinus caribea and Commelina benghalinsis when subdosages of glyphosate were applied to these crops. The authors also emphasised that different dosages were used for each crop.

Conclusion

1. At the subdosages under test, the herbicides, 2.4 D at medium dosage, and Verdict at low dosage, appeared to be the best treatments for the viability of direct seeding in regions which present difficulties of straw production;

2. The herbicides, 2.4 D at medium dosage, and Verdict at low dosage, significantly increased the dry matter and productivity of the black oat crop respectively;

3. Treatment with the herbicide Glyphosate was shown to inhibit dry matter and productivity in the black oat crop.

REFERENCES

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