TITLE:
Systemic Acquired Resistance of Soybean to Soybean Rust Induced by Shale Water
AUTHORS:
Yeshwant R. Mehta, Mariana S. Marangoni, Janaina N. Matos, José Marcos G. Mandarino, Rafael Galbieri
KEYWORDS:
Glycine max, Phakospora pachyrhizi, Asian Soybean Rust
JOURNAL NAME:
American Journal of Plant Sciences,
Vol.6 No.14,
September
4,
2015
ABSTRACT: Shale water as a by-product obtained by Petrobras, Brazil, during the process of extraction of petroleum
from fossil rock may act as an inducer of Systemic Acquired Resistance (SAR) to some
plant pathogens. The objective of the present investigation was to verify the effect of seed treatment
and foliar application with shale water in inducing SAR of soybean to soybean rust under
greenhouse and field conditions. In greenhouse experiments, seed treatment alone with shale
water significantly reduced the severity of soybean rust and the control efficiency after 11 and 14
days after inoculation was between 54.1% and 57.8%. Whereas seed treatment and only one foliar
application with shale water the control efficiency due to SAR 14 and 11 days after inoculation was
between 99.7% and 100%, respectively. Such treatments gave similar results under field experiments
where the control efficiency of soybean rust was between 79.0% and 99.35% in shale water
treated plots as compared to the untreated plots, in 2015. Consequently, this resulted in yield increase
between 14.8% and 28.8% depending upon the seed treatment and foliar applications with
shale water alone or in mixture with a fungicide. Seed health testing revealed lower number of
seeds infected with some pathogens in treatments where either shale water or fungicide was used.
Seed treatment and one foliar application were sufficient to induce SAR against soybean rust. This
is the first report to demonstrate SAR of soybean to soybean rust induced by shale water. Patent
regarding this investigation is deposited with Petrobras, Brazil, under the number EVP 14/022.