. Scientific Frontline: How to help save plants from extinction

Tuesday, October 17, 2023

How to help save plants from extinction

California lilac, a species whose critical limits were obtained for this project
Photo Credit: Karen Udy Chang/Wikimedia Commons

Now is the time to identify the conditions that cause plants to die. Doing so will allow us to better protect plants by choosing conservation targets more strategically, UC Riverside botanists argue in a new paper. 

Published in the Oxford Academic journal Conservation Physiology, the paper demonstrates how scientists can learn the limits past which plants’ vital functions shut down, and makes the case that not doing so is a mistake in this era of increasing drought and wildfires.

“We can measure the amount of water loss plants can tolerate before they start to wilt, and we can learn the temperature at which photosynthesis stops for different kinds of plants,” said Louis Santiago, UCR botany professor and corresponding author of the paper. 

“It is so important to measure the critical limits of when things will fail, and not just how they’re doing now,” he said.

The UCR team believes understanding the current physiological status of a plant species during stress — which so many are experiencing more often with hotter, drier temperatures in many places — can be very useful for showing how close some plants are to local extinction already. Combined with critical limit data, limited conservation funds could be even more wisely spent, revealing plants’ warning signs before they become visible.

Giant sequoias are one of many plant species threatened by climate change and increasingly frequent, severe wildfires. ​
Photo Credit: National Park Service/Anthony Caprio

However, these critical stress limits are not often considered when assessing the health of plant populations, in part because they do not yet exist for most species. There are roughly 700,000 plant species on Earth, but only about 1,000 for whom the limits are known.

Plants can, in some cases, push past their limits for a short time and bounce back. For example, houseplants will wilt when they don’t get enough water, and bounce back when they finally receive it. However, if they stay wilted too long, they will likely die. 

“Wilting, what we refer to as losing turgor pressure, is not always fatal but it’s one step toward death,” Santiago said. “Just like people with extremely high blood pressure might die if they don’t get it to come down.”

Santiago’s laboratory is focused on plant physiology, the chemical and physical processes associated with plant life. However, much of the activity in his lab has shifted in recent years to studying critical limits.

“It started after the last drought when we saw species suffering. We wanted to do these measurements to see if we could have predicted the die-offs that we saw,” Santiago said. 

For this paper, he and his students measured the leaf wilting points for six species of Southern California chaparral shrubs, including California lilac and two types of sage. Their work demonstrates that there are multiple means to obtaining the critical limits and shows how the information could help conservation outcomes. 

“Generally, we have the capacity to find the most vulnerable, rare species and focus on them. We have the ability to find which plants are most at risk from climate changes, but it’s going to take a collaboration of plant physiologists, conservation biologists, and land managers,” Santiago said. 

Most plant species are going to face a climate in the coming decades that does not place them under the same kinds of stress they evolved to live in. For plant enthusiasts wanting to assist their survival, Santiago recommends getting involved with native plant societies. 

“You can join them in pulling out invasive species, or count numbers of rare organisms, and there are countless volunteer projects,” Santiago said. “Let’s work smarter, and work together.”

Published in journalConservation Physiology

Source/Credit: University of California, Riverside | Jules Bernstein

Reference Number: con101723_01

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