After six years and 5,000+ followers on Twitter (of which one-fourth were women and bots who mistakenly thought agronomists were wealthy), and a change in job responsibilities, I decided it was time to refocus my energies on social media. Frankly, I wanted to separate personal life from work and give others an opportunity to step up and take the lead on providing agronomic expertise for the growers. Too, as followers grew, I found myself spending entirely too much time muting and blocking folks that were basically trolling, getting threads completely off target and otherwise wasting my time. So I shut down my main Twitter account (@texasagronomo), set up a new one for my woodworking hobby (@tejaswoodworker) and set about refocusing my role on social media platforms.
So we start anew with @Pioneeragronomo in a new job role – that as Product Agronomist covering from Oklahoma to the Rio Grande Valley. This account will continue to support Pioneer Hi-Bred (@PioneerSeeds) and Corteva AgriScience (@CortevaUS) and will focus only on agronomy. Nothing else. And, based on previous experience, I will be quicker to mute or block the drama queens and non-believers in Pioneer genetics and won’t bat an eye or lose a second of sleep in doing so.
They’re violent, loud, dangerous, destructive and often are precursors to tornadoes. Hail storms. The average hail storm lasts less than a couple of minutes but depending on the intensity and size of hail stones, damage can vary from barely noticeable to total crop destruction.
Hail damage to crops basically comes down to these questions – will the plants survive and, if so, will yield be affected? In my experience, more so for corn, the most noticeable effects of hail damage are three-fold: twisting of the leaf canopy, leaf loss, and stem bruising.
Twisting of the leaf canopy is the result of leaves being shredded by hail stones with the shredded remnants being wrapped or twisted by excessively strong winds. (This phenomenon is more prevalent in young corn, usually V6 or smaller.) The reason this can impact plant survival is that the newly emerging leaves in the whorl can’t advance as the plant recovers. Survival rates of plants can improve if the dying, twisted leaves can somehow detach from the plant, making emergence of the new leaves possible. The impact on yield depends on plant death (stand loss) and distribution down the rows (plants that recover quicker can shade out and out-compete adjacent plants.)
Leaf loss is the most obvious effect of hail on plants. The leaves are the photosynthetic factory – capturing sunlight and converting it to energy that supports plant growth. Believe it or not, there are times when complete leaf loss will not impact yield. Such is the case in corn where leaf loss up to about V3 is not detrimental. Reason being, this is before ear development commences and the plant is still dependent on the seminal root system for support.
Whorl or stem bruising is often overlooked in assessing hail damage. Hail stones are dense and hard. Young corn plants, however, are tender – very little lignin formation has occurred and so a somewhat rigid stalk rind has yet to develop. As the winds bend over the stalks, the lower sections are exposed and vulnerable to being struck by hail stones. The thing to remember is that the growing point is near or above the soil surface around V5 or V6. If the stone penetrates deep enough, it can bruise and kill the growing point. When this happens, the plant is finished. A sharp knife (and the appropriate protective gear) can help determine the depth of penetration of a hail stone. The growing point should be near white while a damaged or dying growing point will turn brown.
As with most storm events, its too wet to do anything in the field afterwards so the best advice is to wait and assess plant recovery over a period of about a week. Give the plants time to recover! In the meantime, don’t hesitate to call your seed rep and agronomist and get their opinion. Here are some other resources for various crops: