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1 October 2015 Response of Energycane to Preemergence and Postemergence Herbicides
Dennis C. Odero, Jose V. Fernandez, Hardev S. Sandhu, Maninder P. Singh
Author Affiliations +
Abstract

Energycane has been proposed as a potential, perennial bioenergy crop for lignocellulosic-derived fuel production in the United States. Herbicides currently used in sugarcane and other crops can potentially be used in energycane if there is acceptable tolerance. Also, to limit future invasion of energycane escapes, herbicides used for perennial grass control could potentially be used for management of escapes. In container studies conducted outside, aboveground and belowground biomass of energycane was measured to evaluate energycane tolerance to 9 PRE and 19 POST herbicides used in sugarcane and other crops. PRE application of atrazine, diuron, mesotrione, metribuzin, pendimethalin, and S-metolachlor at rates labeled for sugarcane did not significantly injure (< 3%) or reduce energycane biomass compared with the nontreated plants 28 and 56 d after treatment (DAT). Injury from clomazone (54%), flumioxazin (7%), and hexazinone (29%) was observed 28 DAT. Injury from flumioxazin was transient and was not observed at 56 DAT. At 56 DAT, energycane injury increased to 71 and 98%, respectively, for clomazone and hexazinone. Hexazinone and clomazone applied PRE significantly reduced biomass compared with the nontreated plants. At 28 DAT, POST application of 2,4-D amine, ametryn, asulam, atrazine, carfentrazone, dicamba, halosulfuron, mesotrione, metribuzin, and trifloxysulfuron at labeled rates for sugarcane did not injure or significantly reduce energycane biomass compared with the nontreated plants. Injury was observed when clethodim (99%), clomazone (51%), diuron (51%), flumioxazin (21%), glufosinate (84%), glyphosate (100%), hexazinone (100%), paraquat (66%), and sethoxydim (100%) were applied POST, and each of these treatments reduced energycane biomass compared with the nontreated plants. These results show that several PRE and POST herbicides used for weed management in sugarcane may potentially be used in energycane for weed control. Also, based on our results, clethodim, glyphosate, and sethoxydim would be effective for management of energycane escapes.

Nomenclature: Ametryn; asulam; atrazine; carfentrazone; clethodim; clomazone; 2,4-D amine; dicamba; diuron; flumioxazin; glufosinate; glyphosate; halosulfuron; hexazinone; mesotrione; metribuzin, paraquat; S-metolachlor; sethoxydim; trifloxysulfuron; energycane, Saccharum spp. × Saccharum spontaneum ‘UFCP 78-1013′, ‘UFCP 82-1655′; sugarcane, Saccharum officinarum L.

La caña energética ha sido propuesta como un cultivo bioenergético potencial para la producción de combustibles lignocelulósicos en los Estados Unidos. Los herbicidas usados actualmente en caña de azúcar y otros cultivos pueden ser potencialmente usados en caña energética si la tolerancia es aceptable. También, para limitar invasiones producto de escapes de caña energética, los herbicidas usados para el control de gramíneas perennes podrían potencialmente ser usados para el manejo de estos escapes. Estudios con potes fueron realizados a la intemperie, en donde se midió la biomasa de la caña energética sobre y dentro del suelo para evaluar la tolerancia a 9 herbicidas PRE y 19 herbicidas POST usados en caña de azúcar y otros cultivos. La aplicación PRE de atrazine, diuron, mesotrione, metribuzin, pendimethalin, y S-metolachlor a dosis de etiqueta para caña de azúcar no causaron un daño significativo (<3%) ni redujeron la biomasa de la caña energética al compararse con plantas sin tratamiento, a 28 y 56 días después del tratamiento (DAT). El daño causado por flumioxazin fue transitorio y no se observó a 56 DAT. A 56 DAT, el daño en la caña energética aumentó a 71 y 98%, respectivamente, para clomazone y hexazinone. Hexazinone y clomazone aplicados PRE redujeron significativamente la biomasa al com

Dennis C. Odero, Jose V. Fernandez, Hardev S. Sandhu, and Maninder P. Singh "Response of Energycane to Preemergence and Postemergence Herbicides," Weed Technology 29(4), 810-820, (1 October 2015). https://doi.org/10.1614/WT-D-15-00033.1
Received: 22 March 2015; Accepted: 1 June 2015; Published: 1 October 2015
KEYWORDS
Bioenergy crop
herbicide injury
herbicide tolerance
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