Effects of increased weather variability on weed management


Researchers explore how the predicted increase in variable rainfall and higher temperatures will impact management of common weeds for corn production.

Image credit: Waldemar Brandt on Unsplash

Climate predictions for the US Corn Belt suggest that by 2050 there will be an increase in spring rainfall and a reduction in summer rainfall. This spring increase is expected to manifest in a rising number of periods of extreme rainfall with increased short drought periods in between. Air and soil temperature increases are also anticipated. Such weather changes may negatively impact weed management of corn, by reducing effectiveness of early weed control at the start of the season.

Pre-emergence (PRE) herbicides are applied to soil before weeds appear. Rainfall or irrigation incorporates the herbicides into the soil. The water dissolves herbicides so that they can be absorbed by weeds emerging in the soil. Generally, if this is not adequately achieved in two weeks after application, efficacy of the herbicide is reduced. Efficacy can also be reduced by increased soil temperatures, which may promote early germination (reducing the time window for PRE herbicides to work) and due to enhanced metabolism of herbicides in plants.

Researchers analyse the impact of increased weather variability on PRE herbicides in corn, in a new Pest Management Science paper, using an extensive database with 252 unique weather environments. They modeled the efficacy of herbicides atrazine, acetochlor, S-metolachlor, and mesotrione, applied PRE individually and in combinations, on common lambsquarters, giant foxtail, and waterhemp (three of the most common weeds in US corn production).

The results showed greater chance of successful control of the weeds with increased rainfall after application of PRE herbicides. For most of the treatments, 5 to 10 cm of rainfall within 15 days of application was required for successful weed control. Conversely, absence of rain during this time was detrimental to efficacy of most herbicides. The researchers noted that because “rainfall is required to move PRE herbicides into the soil-water solution, poor herbicide efficacy under limited rainfall is likely due to low bioavailability of the PRE herbicides”. In general, herbicide combinations required less rainfall for successful weed control than individual herbicides, probably due to factors such as water solubility and soil sorption of the combination components.

Increasing soil temperatures had different effects across herbicides and combinations. Generally, soil temperature only affected weed control if rainfall was limiting (<10 cm). At higher temperatures decreases in efficacy may be caused by increased herbicide degradation, whilst increases in efficacy may be caused by greater herbicide uptake. The results suggest that the predicted weather changes are likely to exacerbate the variability of herbicide efficacy.

Contour plots of probability of successful control of common lambsquarters (Chenopodium album), giant foxtail (Setaria faberi), and waterhemp (Amaranthus tuberculatus) as a function of total rainfall and average soil temperature from application to 15 days after treatment (DAT). The symbol * represents a significant rainfall by temperature interaction term at α =0.05

PRE herbicide combinations demonstrated increased odds of successful weed control compared with individual PRE herbicides, for control of common lambsquarters, giant foxtail, and waterhemp. The research showed that combinations of atrazine, acetochlor, S-metolachlor, and mesotrione overcome some risk of variable weather on PRE herbicide efficacy. Future research could investigate the exact cause of the increased efficacy of PRE herbicide combinations.

Overall, the researchers conclude that the “development and adoption of more integrated weed management strategies that utilize PRE herbicides in combination with additional cultural, mechanical, biological, and POST chemical control options are needed in the quest to adapt US corn production to climate change”.

Reference: Williams MM, et al. ‘Future efficacy of preemergence herbicides in corn (Zea mays) is threatened by more variable weather’ Pest Management Science (2021). DOI: 10.1002/ps.6309

Latest articles

The provinces might get their health funding boost — with strings attached

Manitoba Premier Brian Pallister said Thursday that when it comes to funding for health care, the provinces aren't looking for the federal government...

NASA names Perseverance rover’s Mars touchdown site ‘Octavia E. Butler Landing’

The Perseverance rover's Red Planet touchdown site has been renamed for Octavia E. Butler, the noted African American science fiction author.NASA announced they...

The ‘Lamborghini’ of Chariots Was Just Unearthed Near Pompeii

Archaeologists in Italy have unearthed an elaborately decorated, intact four-wheeled ceremonial chariot near the ruins of the Roman city of Pompeii, famously...

Related articles

Leave a reply

Please enter your comment!
Please enter your name here