Some of the content below is excerpted from the articles cited below and USGS and Penn State news releases.
As I’ve mentioned, my house sits on a bit over 10 acres,
about three of them lawn and ornamental gardens which turned into baby deer and
doe pasture this summer. The remaining seven acres is woodland, and much of the
woodland is part of the “resource protected area,” RPA of the Chesapeake
Bay.
For a number of years, I have been engaged in a project to restore
the woodland and cut back the invasive species. The invasive vines especially
the autumn olive and Japanese honeysuckle were choking out the natural renewal
process. As we’ve cut back the invasive species inside the woods, we’ve been creating
a woodland path to walk down the hill
towards the creek. Now the path ends at a constantly muddy area where there is
a seep above Chestnut Lick creating vernal pools in the spring. The area is drier
during the summer in the past two years when we have had droughts. Still the
soil remains moist.
A seep is the low-pressure twin of spring and occurs where
groundwater discharges to the surface. In my case the groundwater emerges where
the hill cuts down to the creek. Usually, seeps are merely wet , but groundwater
discharge flows at many seeps even through the driest summer months. I was
walking in the woods with an eight-year-old and trying to see if the August rains
had restored the seep when I saw a red backed salamander. I had not seen a
salamander since I was a kid and the eight-year-old and I were both excited.
Salamanders (Amphibia: Caudata) are ancient vertebrates. The
red-backed salamanders is a native of the northeastern United States especially in moist forest leaf
litter, headwater streams, riparian ecotones, swamps, and seasonally inundated
pools. Pretty much my back yard.
The study authors estimated an average of 5,300 salamanders
in every patch of forest the size of a football field (1.32 acres) in the
Northeast. Even though each salamander is only3 inches long, the number of red-backed salamanders means that they also have some of the highest
biomass estimated for animals other than insects in the Northeast, similar to
or greater than the biomass of the white-tailed deer. Wow.
“Salamanders serve a vital function in forest ecosystems,”
explained David Miller, professor of wildlife ecology at Penn State and
one of the co-authors of the study. “They are at the top of the food chain
on the forest floor, where everything is breaking down into the soil that
sustains this entire network of life. In fact, salamanders are so important to
this life cycle that we can use them as a barometer for forest health.”
Just as I was thinking that seeing a salamander was a positive sign of the forest health, they gave me something new to worry over. A lethal invasive fungal disease. Batrachochytrium salamandrivorans, or Bsal for short, is a fungal disease closely related to the chytrid fungus that is already devastating amphibian populations around the world. It was first found in the Netherlands in 2013 and, since then, has decimated the salamander populations in central Europe and continues to spread across Europe.
Bsal hasn’t been detected in the U.S. yet, so scientists and
wildlife managers are preparing for its arrival with the North American Bsal
Task Force. Another study completed this week tested proactive measures to see if they are effective.
The Bsal Task Force needed evidence that proactive management would be more effective than
waiting to respond until the disease is detected in the wild. So, Grant
co-authored another recent paper that tested a series of proactive and reactive
management actions to forecast the impact on salamander populations over time.
The study, “Proactive management outperforms reactive actions for wildlife disease control,” used computer modeling to confirm what seems intuitively obvious: namely, initiating management of wild populations before Bsal arrives is, in fact, more successful at keeping salamanders from disappearing than waiting until after Bsal is detected or not doing anything at all.
“If we do nothing to manage Bsal, the model forecasted that the disease would be catastrophic to North American salamander species,” said Molly Bletz, assistant professor of disease ecology at Penn State and lead author of the second study. “This study gives strong quantitative support to proactive management actions." Basically, if we want salamanders to be around in the future, doing something besides wringing your hands.
In addition, in 2016, the US Fish and Wildlife Service issued a rule that prohibits the importation or interstate transport of 201species of salamander and samples derived from them unless a permit is issued. It's a start.
Grant Evan H. Campbell, Fleming Jillian, Bastiaans Elizabeth, Brand Adrianne B., Brooks Jacey L., Devlin Catherine, Epp Kristen, Evans Matt, Fisher-Reid M. Caitlin, Gratwicke Brian, Grayson Kristine L., Haydt Natalie T., Hernández-Pacheco Raisa, Hocking Daniel J., Hyde Amanda, Losito Michael, MacKnight Maisie G., Matlaga Tanya J. H., Mead Louise, Muñoz David, Peterman William, Puza Veronica, Shafer Charles, Sterrett Sean C. Sutherland Chris, Thompson Lily M., Warwick Alexa R., Wright Alexander D., Yurewicz Kerry and Miller David A. W. 2024Range-wide salamander
densities reveal a key component of terrestrial vertebrate biomass in eastern
North American forestsBiol. Lett.2020240033 Range-wide
salamander densities reveal a key component of terrestrial vertebrate biomass
in eastern North American forests | Biology Letters
(royalsocietypublishing.org)
Davic, Robert D.; Welsh Jr., Hartwell H. 2004. On the
ecological role of salamanders. Annu. Rev. Ecol. Syst., Vol. 35: 405-434
Molly
C. Bletz, Evan
H. Campbell Grant, Graziella
DiRenzo; Quantitative support for the benefits of proactive management
for wildlife disease control; First published: 26 August 2024. The
Society for Conservation Biology (wiley.com)
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