effects of long term irrigation with reclaimed wastewater on the efficacy and fate of als inhibiting...

Effects of long term irrigation with reclaimed wastewater on the

efficacy and fate of ALS inhibiting herbicides

Gal Dvorkin, M Manor, M Sibony, B Chefetz and B Rubin

The Robert H. Smith Faculty of Agriculture, Food and Environment, The Hebrew University in Jerusalem,

Rehovot, Israel

Na’an- double cropping irrigated with pivot - 2.8.2006

The field is irrigated with reclaimed wastewater (RWW) for the last 40 years

introduction

Applied herbicides at Na’ad cotton field 2006

• 28.4.06 – Glyphosate 0.84 kg ae/ha• 30.4.06 – Prometryn 1.5 kg/ha• 21.5.06 – Trifloxysulfuron 11.25 g/ha• 11.6.06 – Fluometuron 1.25 kg/ha• 26.6.06 – Prometryn 1.4 kg/ha• 14.7.06 – Trifloxysulfuron 11.25 g/ha

introduction

The main problems in Na’an field

• The trifloxysulfuron that was applied twice in the highest recommended dose, was not able to control the Amaranthus palmeri.

• Wheat that followed the cotton 4 months after the trifloxysulfuron application, was not damaged by residues that were supposed to remain in the soil.

introduction

Hypothesis

• The long term irrigation with RWW have caused changes in the soil (OM and microorganisms), thus decreasing the persistence of ALS herbicides.

• The Amaranthus palmeri population developed resistance to trifloxysulfuron

hypothesis

Research Objective

• To elucidate the effect of a long term irrigation with RWW on the behavior of ALS inhibiting herbicide trifloxysulfuron in the soil

Materials and Methods

• Field experiments were conducted at the problematic field, in 2007,2008 and 2009.

• Dose response curves to trifloxysulfuron in RWW irrigated soil and in fresh water (FW) irrigated soil

• Develop chemical analysis method to extract and estimate trifloxysulfuron residues from the soil.

The field experiments

• Herbicides were sprayed with a “backpack sprayer”, each plot 2 m wide and 12 m long

• Every 2 weeks soil samples were taken using soil driller

• Herbicide content in the soil samples was examined using Sorghum bicolor as test plant, and harvested 3 weeks later.

Materials and methods

Results of field experiments

Results field experiment 2008

Pelmer amaranth on the day of post-em application -16.6.08

Results

Trifloxysulfuron 11.25 g ha-1 - 15.7.08

Results

0

Trifloxy 11.25Control

Control

27

Trifloxy 11.25

150 mm14

day

Control Trifloxy 11.25

70 mm

Control

40

Trifloxy 11.25

178 mm54

Control Trifloxy 11.25

460 mm

Results

Bioassay of soil samples

Results bioassay 0-15 cm depth

0

20

40

60

80

100

120

140

0 20 40 60 80 100shoo

t wei

ght (

% o

f con

trol

)

DAT

Effect of trifloxusulfuron 11.25 gr\ha on test plant shoot weight (% of control)

B

AB

AA

A

A A

Results

Lab experiments

Comparing the effect of trifloxysulfuron in RWW soil and FW irrigated soil

• RWW irrigated soil was collected from Na’an field, and FW irrigated soil was collected from near by field.

• Both soils were air dried, sieved (5 mm), and were put in 7*7*7 (cm) plastic pots.

• The pots were planted with wheat, and sprayed with trifloxysulfuron and irrigated with FW.

• After 3 weeks in the screen house, Plant harvested and shoot fresh wt was recorded

Materials and methods

Soil properties

FW irrigated soil

RWW irrigated soil

7.47.7pH

42%42%Clay %

43%39%Sand %

15%19%Silt %

RWW soil- Trifloxysulfuron

FW soil- Trifloxysulfuron

control

control

1.9 g ai/ha 3.8 g ai/ha 7.5 g ai/ha 15 g ai/ha 30 g ai/ha

1.9 g ai/ha 3.8 g ai/ha 7.5 g ai/ha 15 g ai/ha 30 g ai/ha

Results

The effect of trifloxysulfuron concentration on shoot weight (% of control)

020406080

100

0 5 10 15 20 25 30 35

Trifloxysulfuron (g ai/h)

Ave.

shoo

t we

ight (%

of

contr

ol)

Fresh water soil

Waste water soil

Results

RWW soil-trifloxysulfuron

Fresh water soil- trifloxysulfuron

control1.9 g ai/ha 3.8 g ai/ha 7.5 g ai/ha 15 g ai/ha 30 g ai/ha

Results

The effect of trifloxysulfuron concentration on root weight (% of control)

0

50

100

150

0 10 20 30 40

Trifloxysulfuron (g ai/h)

Ave

. roo

t wei

ght

(% o

f con

trol)

Fresh water soil

Waste water soil

Results

Chemical analysis of Trifloxysulfuron in the soil

• Soil samples were collected from the field experiment in Na’an.

• The samples were extracted and filtered.

• Extracts were injected to LC/MS and a method for identifying trifloxysulfuron residues in the soil was developed.

Preliminary results

Results

Conclusions• Trifloxysulfuron dissipates faster in RWW

soil compare to FW soil.

• Enhanced dissipation of trifloxysulfuron under field conditions is evident.

• More experiments are required in order to determine the factors involved in the faster dissipation of trifloxysulfuron in the soil

Acknowledgments

• Prof. Tom Mueller, University of Tennessee.

• Weed lab group: Coby Goldwasser, Hadas Rozenberg, Or Levy, Maor Mazraffi, Ella Cohen Alon Vallch and Tal Naamat.

• Soil & Water lab- Michal Shechter, Ziva Hochman, Daniela Harush, Yaniv Olshansky and Shay Eldad.

Thank you very much for listening

Questions?