Can scientists make fruits and vegetables resilient to climate change?


In some ways, Bonany says, Tutti is already outdated.

Temperatures above 40 Celsius, which are increasingly in our future, will create some real problems, says Mario Andrade, a plant geneticist at the University of Maine in Orono and co-investigator in a project to create potatoes climate resistant.

What happens to crops as temperatures rise?

To hit that moving target, scientists are starting with what they know about how plants handle heat.

Research has shown that even a slight increase in temperatures during the planting season can significantly weaken the yield of many plants. For example, globally, every 1 degree C rise amounts to a 10 percent and 6.4 percent loss in yields of rice and wheat, respectively, the foods that together with corn account for most of the world’s food calories.

withered plant
Drooping leaves are a sign that a plant is struggling during hot weather. seven75/iStock / Getty Images Plus

But that’s just one of the many things that can go wrong when temperatures rise. Other signs of heat stress you may commonly see in your garden plants include drooping, slower growth, scorch marks on leaves and stems, smaller fruits and vegetables, or plants that flower but don’t produce at all. , a sign that their pollen, which is sensitive to heat, has been damaged. Some plants even signal their distress vocally, making small ultrasonic clicks when they are very thirsty (SN: 3/30/23).

As temperatures continue to rise, the very proteins that carry out essential plant functions, such as driving photosynthesis, locking in water and nutrients and warding off disease, begin to unfold and break down, says Owen Atkin, a plant scientist at the Australian National University. in Canberra developing heat tolerant wheat. Plants can repair this damage using fast-acting heat proteins. And after 50 C (122 F), plants can begin to change the chemical composition of their cell membranes to keep their lipids from melting like butter left on the counter. But they do so at a cost.

The cost of living while trying to repair, repair, repair, because degradation is getting faster, means you’re expending a lot more energy to survive, Atkin says. It would take some advanced work to protect against that kind of damage.

Setting the freezer to heating

Most new plant varieties today are still produced as they have been for thousands of years, through a process known as selective breeding in which parents with desirable traits are crossed and their offspring born over successive generations until only the most the strong ones. It’s a long process, and there aren’t many ways to shorten it. A plant grows as fast as a plant grows, Andrade says, but there are new ways to make the process more efficient.

One of the most pressing challenges is that researchers and breeders must balance conflicting needs. A plant that is heat tolerant but disease susceptible will not sell, nor will one that is disease resistant but produces low quality fruit. Each of these traits can be controlled by hundreds of genes, all of which interact in unexpected ways. It’s a data nightmare that makes studying the genetic basis for various traits a challenge.

Now, however, the ability to control a plant’s entire genetic code has ushered in a new era of genome-assisted breeding, in which scientists still make crosses but use modern tools to guide their selections. For example, scientists can now compare the genetic makeup of different cultivars to investigate which features of their DNA might give one strain greater heat tolerance than another. This also negates the need to wait for each generation to grow old enough to demonstrate a trait. Researchers can now quickly look at the genetic code of cultivars to identify whether a cross has a desired gene and narrow down their list of potential contenders.

Only by knowing the exact genes that drive a trait can breeders begin to manipulate them, says Rajeev Varshney, director of the Center for Crop and Food Innovation at Murdoch University in Perth, Australia. This manipulation can include genetic modification, in which a gene from one species is added to another, or gene-editing tools such as CRISPR/Cas9 that allow scientists to edit small pieces of the code changes in plants that have produced strawberries, tomatoes and climate-friendly tomatoes and potatoes.

In one study, researchers identified a gene called AtGRXS17 in Arabidopsis, a small plant from the mustard family widely used in research, that appears to be involved in drought tolerance. When they added the gene to tomatoes and withheld water for 10 days, the modified plants retained their energy and produced fruit, while plants without the gene did not. In another, using CRISPR/Cas9 to edit a single gene called FaPG1 produced firmer strawberries that held more water.

At the moment, the use of these last tools remains expensive, and so its mostly private companies develop them for large-scale operations. As such, most edited crops are out of reach for the average gardener at the moment. The first cultivar marketed directly to home gardeners was released only recently, in February 2024, a deep purple tomato that gets its color thanks to several genes extracted from snapdragon flowers.

But Varshney notes that costs are coming down all the time, and it’s likely he’ll soon see more options available to consumers. In the coming years, breakthroughs will come much faster, he says. I feel very optimistic that we will have many more heat and drought tolerant plants.

Can we use any past techniques for future crops?

It is possible to purchase traditionally bred seeds from commercial companies that are marketed as heat tolerant meaning they grow relatively well in hot conditions compared to non-adapted strains. But a growing movement is encouraging gardeners to take their plants locally, especially if you already live in a hot location.

Even a specially developed plant like Tutti may not thrive in every new location, but plants that have been bred locally are often uniquely adapted to a region in ways we don’t yet fully understand. Native communities throughout the American Southwest, for example, excel at growing heat-tolerant varieties, says Andrea Carter, a member of the Powhatan Renape Nation and director of agriculture and education at Native Seeds SEARCH, a public seed bank in Tucson that preserves drought diversity. adapted seed.

trifecta planting, with three plants helping each other
The Three Sisters method, used by indigenous cultures for thousands of years, involves planting beans, corn and squash together, three crops that each provide benefits to the others.S. Lopez-Ridaura et al.

These seeds have been grown for hundreds, sometimes thousands of years in a particular location which is a lot of work that has gone into adapting these plants, she says. In the future, most of the world will face high temperatures and low water availability, and so the seeds of this region are a real resource that is already becoming more valuable.

How you grow your plants can also give them an edge (SN: 3/9/23). The Three Sisters method involves growing a trio of corn, beans and squash together, each providing benefits to the others. The beans fix nitrogen in the soil for the corn, whose long stalks provide a cage for the beans, and the low-growing squash shades the soil. Covering the soil with straw or mulch or using shade cloth provides a similar benefit, and Carter says that deep but infrequent watering is better than drip irrigation to encourage roots to grow, where they are less likely. prone to drying out.

Desert-adapted plants do this naturally, but others may need a little prodding, says Roslynn McCann, a sustainable communities researcher at Utah State University in Moab. In some ways, I think gardening under climate change has become a little more practical that way. It’s less about throwing seeds and seeing what grows, and more about doing what you can to give your plants a leg up.


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Image Source : www.sciencenews.org

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