Matt Kasson, West Virginia University; Brian Lovett, West Virginia University, and Carolee Bull, Pennsylvania State University
Entomologist Brian Lovett examines flea beetle-infested potatoes in Morgantown, West Virginia. Matt Kasson, CC BY-ND |
Now that gardens are largely planted, much of the work for the next several months revolves around keeping them healthy.
Contrary to the Biblical adage, we do not necessarily reap what we sow. As researchers specializing in plant pathology and entomology, we have devoted our careers to understanding and managing plant pests and pathogens. We are also gardeners with varying levels of experience and have seen firsthand the damage these insects and disease-causing agents can inflict.
Plant pathologist Carolee Bull works in her home garden in State College, Pennsylvania. Carolee Bull, CC BY-ND |
Thousands of pests and pathogens are known to target commercial crops, but a few usual suspects are routinely responsible for havoc in gardens across the U.S. Although each organism’s preferences vary, a few common tactics can help you detect them and protect your plants.
Start with prevention
Using weed barrier landscape cloth for planting rows and mulching between rows is an effective way to suppress weeds. Matt Kasson, CC BY-ND |
One key step is assessing soil fertility – the ability of soil to sustain plant growth – which can vary widely depending on your location and soil type.
Low soil fertility limits food production and predisposes plants to disease and pests. University extension soil testing labs can help evaluate the quality of garden soil and identify nutrient deficiencies and acidic soils, often at no charge.
Suppressing weeds, either through mulching or weeding by hand each week, increases air flow and reduces humidity around garden plants, making it harder for pests and pathogens to thrive. Weed control ensures that nutrients are available for the plants you want to grow.
Frost-killed blackberries in Morgantown, West Virginia. Matt Kasson, CC BY-ND |
You can always cull plants after they come up to help with spacing. In small gardens, fewer plants that are properly supported can produce a bigger harvest than many overcrowded plants.
And then there’s the weather. Frost, hail, drought and flooding all pose unique risks to plants. Inconsistent rainfall can kill thirsty plants more quickly than infertile soils. Both too little and too much water will stress plants and can make them more vulnerable to severe pest and pathogen outbreaks.
A general rule of thumb is to follow a consistent daily watering regimen – preferably first thing in the morning – and to avoid over-watering, which can encourage root pathogens in soil.
Diagnosing problems
This white fungal growth is an early sign of powdery mildew on a leaf of susceptible summer squash. Matt Kasson, CC BY-ND |
Unlike insects, which move around on six legs or on wings through the air, pathogens can move unseen and unchecked from leaf to leaf on the wind, through the soil or in droplets of water.
Some microbes have even formed intimate relationships with insects and use them as vehicles to move from plant to plant, which makes these pathogens even more challenging to manage. Unfortunately, by the time some pathogens make their presence known, the damage is already done.
We recently conducted a Twitter poll of gardeners nationwide to find out which culprits plagued their gardens. People named aphids, squash vine borers, squash bugs and flea beetles as the most problematic insect pests. Their most troublesome pathogens included powdery mildew, tomato bacterial wilt and cucurbit downy mildew.
To manage such perennial challenges, the first step is to spend time closely looking at your plants. Do you notice any insects consistently hanging around, or molds colonizing leaves or other plant parts? How about symptoms such as blight, stunting, or leaves that are yellowing, browning or wilting?
There are countless resources online for keen-eyed and curious gardeners looking to identify and manage pests and diseases. Try uploading a photo to the iNaturalist app or a Facebook gardeners group that can offer a community-sourced ID. Plant disease clinics in your state will also diagnose plant damage from diseases and pests for free or at low cost.
Once you’ve identified a problem serious enough to intervene, the land grant extension system can provide solutions. Extension programs at land grant schools like West Virginia University and Penn State University offer critical information on agriculture and management of pests and diseases in multiple languages for commercial and home growers.
Their resources include information on safe and proper use of pesticides as part of integrated pest management strategies. This approach employs pesticides in a targeted way along with non-chemical control methods and cultural practices, such as choosing native plants. Our professional societies, including the American Phytopathological Society, also offer a compendium series to help users diagnose and treat pests and diseases.
Those who are serious about learning and sharing their experience with others may want to consider Master Gardener programs, which train and certify community members on the latest evidence-based gardening techniques, tailored to their growing area. Master Gardeners pay it forward by training new Master Gardeners and answering questions for any gardener.
Plant pests are a daily reminder that gardens do not exist in a vacuum, and gardeners shouldn’t struggle alone either. Joining the gardening community takes attentiveness and time, but we believe the investment required to become an active member of your local gardening community is well worth it.
With experience, the nervous tightrope act of keeping pests at bay and food on the table becomes a delicate dance that can help us appreciate where our food comes from – and ultimately, our place in the global ecosystem.
Matt Kasson, Associate Professor of Plant Pathology and Mycology, West Virginia University; Brian Lovett, Postdoctoral Researcher in Mycology, West Virginia University, and Carolee Bull, Professor of Plant Pathology and Systematic Bacteriology, Pennsylvania State University
This article is republished from The Conversation under a Creative Commons license. Read the original article.