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Historic datasets reveal effects of climate change and habitat loss on plant-pollinator networks

Date:
February 28, 2013
Source:
Washington University in St. Louis
Summary:
Two biologists at Washington University in St. Louis were delighted to discover a meticulous dataset on a plant-pollinator network recorded by Illinois naturalist Charles Robertson between 1884 and 1916. Re-collecting part of Robertson's network, they learned that although the network has compensated for some losses, battered by climate change and habitat loss it is now weaker and less resilient than in Robertson's time.

Both plants and insects depend on insect pollination but so do people. Without insect pollination, we would have to survive on a monotonous diet limited to wind-pollinated grasses, such as wheat and corn.
Credit: Public domain image (created by the Dartmouth Electron Microscope Facility)

Are plant-pollinator networks holding together as the insects and plants in the network are jostled by climate change and habitat loss?

The question is difficult to answer because there is no baseline: few historic datasets record when plants first bloomed or insects first appeared and almost none follow both plants and insects.

Which is why biologist Tiffany Knight and her then postdoctoral research associate Laura Burkle were delighted to discover meticulous data on a plant-pollinator network recorded by Illinois naturalist Charles Robertson between 1887 and 1916.

Re-collecting 26 spring-blooming flowers from Robertson's network, Knight, PhD, professor of biology at Washington University, and Burkle, PhD, now assistant professor of ecology at Montana State University, discovered that the network had weakened.

Half the bee species associated with these flowers in Robertson's lifetime had disappeared, some pollinators were active before their plants had bloomed, plants weren't visited as often, and the bees that did visit weren't carrying as much usable pollen.

"The network is still there and still functioning, despite major perturbations," Knight said. "The bees still have food, plants are still getting pollinator service. But the service has declined, the network's structure is weaker, and its response to future perturbations much less certain," she said.

The study, the first to look at human disruption of plant-pollinator networks through the lens of historical data, appears in the Feb. 28th online edition of Science.

Robertson's astonishing legacy

A professor of biology and Greek at Blackburn College in Carlinville, Illinois, Charles Robertson collected flower-visiting insects near Carlinville between 1887 and 1916.

Over 20 years Robertson recorded visits from 1429 pollinators (including flies, beetles and butterflies as well as bees) to 456 plant species. He identified and described several hundred insects previously unknown to science. So respected is he among entomologists that roughly 20 additional species have been named for him. Robertson's meticulous database is probably the oldest of its type for flower-visiting insects.

"Before Robertson," said co-author John Marlin, PhD, a research affiliate at the University of Illinois's Prairie Research Institute who had re-collected part of Robertson's network in the 1970s, "almost all insect collecting was done independently of the plant. Robertson was one of the first to record the insect, the plant it was collected on, to the extent possible what the insect was doing, and other factors, which led to an explosion of information on insect-plant relationships."

Burkle said she particularly enjoyed the sleuthing needed to figure out Robertson's methods so that they could replicate them. "It was like solving a mystery, she said, trying to deduce what he had done from old ledgers, specimen i.d. tags, and his privately published book Flowers and Insects."

How Robertson's network is doing

"Robertson studied it all," Knight said. "He studied forests, he studied prairies, he studied roadside plants, he studied old fields; he even moved some plants to his own yard so he could study them more easily. If it was a species of flowering plant within a 10-mile radius of Carlinville, it was in his study. "

"To keep our project manageable," Knight said, we re-collected a subset of the network Robertson collected, focusing on one plant community: forest spring ephemeral plants. We looked at 26 plant species in this community, which were associated with 109 bees in Robertson's time."

"If any community is going to be affected by climate change," Knight said, "it would be this one, because the plants flower soon after the winter snow melts."

In many ways the most startling finding to emerge from the re-collection was that half Robertson's bees were nowhere to be found. The scientists never saw them.

Robertson's bees were mostly solitary bees, small, nondescript bees that lay a few eggs in cells and leave their young to develop on their own.

"Some of these bees have broad distributions, encompassing, for example, the entire eastern United States, so even though they're locally extirpated, most are not extinct," said Knight.

The re-collection also revealed timing mismatches between the bees and the plants. Plants were flowering earlier than they had in Robertson's time: on average. 9.5 days earlier. Bees were active earlier too: on average 11 days earlier.

But despite similar average shifts, timing mismatches occurred, because the early-season bees advanced a lot more than the late-season bees, said Knight, and no such pattern occurred among the plants.

Moreover, everything had speeded up. The flowers were in bloom eight fewer days on average and the insects flew for 22.5 fewer days. Because everything was more compressed, there was less overlap and less time for successful pollination.

Of the 532 pairings between the plants and bees that linked the subset of Robertson's network Knight and Burkle studied, 406 had been lost (but 120 new pairings had been gained). Forty five percent of the links were broken because bee species were missing, and the rest had broken for other reasons, including timing mismatches or habitat fragmentation.

A 40-year-old re-collection of Robertson's network

But Burkle and Knight were aware that counting network links was a crude measure of pollination services. "All the network diagrams say is the bee is present, the plant is present, and we saw them interacting at least once," Knight points out.

"Robertson didn't keep track of how much time he spent in the field watching each flower, so we couldn't get visitation rates from his data. But of course we searched the literature to see whether anybody had published on the Carlinville network since Robertson, and one person had."

That person turned out to be Marlin. "All through high school I studied bees and ants," he said, "and when I came to college, the Illinois Natural History Survey hired me to help collect insects around the state.

"In my senior year I was asked to collect bees at Carlinville to try to duplicate as much as possible Robertson's efforts. I spent two seasons collecting on 24 plants that Robertson had collected on."

One of the plants Marlin studied was Claytonia virginica, commonly known as 'spring beauty.' "We were very interested in Claytonia virginica because it is the plant in the network currently visited by the greatest diversity of bees," Knight said.

"Marlin's dataset gave us visitation rate, a quantitative measure of pollination we otherwise wouldn't have had. Comparing the visitation rates we measured to Marlin's, we discovered that the bees were making fewer trips to the flowers than they had in the 1970s.

"Marlin counted 0.59 bee arrivals per minute and we counted 0.14 arrivals. So even those some interactions are still present, they're weaker.

Both Robertson and Marlin had collected their bees, pinned them, and deposited them in the Illinois Natural History Survey, often still fuzzy with pollen.

To assess how much usable pollen the bees had carried, Burkle and Knight picked six bee species that frequently visited Claytonia virginica, two named by Robertson, and washed Robertson's archival specimens of those bees, Marlin's specimens and their own.

"We gave the bee a gentle bath and washed its pollen off onto a microscope slide and then we fluffed it back up with a hair dryer," Knight says.

Since these were all the same species of bee caught off the same flower, the default assumption was that they'd be covered in much the same pollen.

Not so. It turned out that these bees had been more loyal to Claytonia in the past than they were now.

The fraction of the pollen on the bee contributed by Claytonia virginica was highest in Robertson's time, lower in Marlin's time and much lower in 2010. Since pollen from another species of plant is at best unusable and at worst can clog up pistils, preventing fertilization, the bee washings also pointed to a decline in pollination services.

The bottom line

"I was surprised by how tenuous a lot of these plant-bee interactions are," Burkle said. "We've pushed on these communities a lot, and they are pretty robust, but at the same time, they are compromised, and more compromised than I was expecting them to be."

There have been major changes in Robertson's network over the past 120 years, Knight said. The good news is that the network proved flexible, and many of the broken connections were replaced with new ones. But the bad news is that network has been restructured in ways that will make it less resilient to disturbances in the future.

We can't just kick these plant-pollinator networks forever and expect them to keep functioning," Knight said.


Story Source:

The above story is based on materials provided by Washington University in St. Louis. Note: Materials may be edited for content and length.


Journal Reference:

  1. Laura A. Burkle, John C. Marlin, and Tiffany M. Knight. Plant-Pollinator Interactions over 120 Years: Loss of Species, Co-Occurrence and Function. Science, 28 February 2013 DOI: 10.1126/science.1232728

Cite This Page:

Washington University in St. Louis. "Historic datasets reveal effects of climate change and habitat loss on plant-pollinator networks." ScienceDaily. ScienceDaily, 28 February 2013. <www.sciencedaily.com/releases/2013/02/130228155624.htm>.
Washington University in St. Louis. (2013, February 28). Historic datasets reveal effects of climate change and habitat loss on plant-pollinator networks. ScienceDaily. Retrieved April 20, 2014 from www.sciencedaily.com/releases/2013/02/130228155624.htm
Washington University in St. Louis. "Historic datasets reveal effects of climate change and habitat loss on plant-pollinator networks." ScienceDaily. www.sciencedaily.com/releases/2013/02/130228155624.htm (accessed April 20, 2014).

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