Egg mass surveys
In the previous blog post, I noted that colonization of newly constructed pools appeared to be successful, but wondered if that would come at the expense of reproductive investment in pre-existing pools. This did not turn out to be the case: wood frog and spotted salamader egg mass counts in pre-existing pools were comparable or in many cases greater in 2011 than in 2009 or 2010.
In the Microarray, 87 wood frog egg masses were deposited in 15 of 32 (47%) pools, and 100 spotted salamander egg masses were deposited in 12 pools (38%). Although most pools contained water in the early spring, both species demonstrated remarkable avoidance of pools that dried rapidly and offered no chance for successful larval development.
In the Hexagon Array, 158 wood frog egg masses were deposited in 29 of 39 (74%) pools, and 135 spotted salamander egg masses were deposited in 22 pools (56%). As described in the previous post, frogs colonized new pools more readily than salamanders. Interestingly, niether species avoided pools with green frog tadpoles that had successfully overwintered. More on this later...
Leaf litter decomposition experiment
In mid-May, I tied to a stake at the deepest point of each pool three onion bags, each containing a known mass (approximately 3 g) of red maple leaves collected during autumn of 2010. These were retrieved in late July, and I am in the process of taking final weights to determine decomposition rates for each pool.
Macroinvertebrate sampling
I conducted two rounds of aquatic macroinvertebrate sampling with nocturnal light traps developed by Professor Bruce Smith, the first in mid-May and the second in late June/early July. All Hexagon Array pools contained water and were trapped during both survey periods, but only 18 and 10 Microarry pools were inundated and trapped for the first and second surveys, respectively. Samples have been preserved and are waiting for the snow to fly and the pools to freeze before they will get the attention they deserve.
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| SUNY Buffalo PhD student Mike Habberfield deploys an aquatic light trap. |
I had planned to conduct two rounds of sampling wood frog and spotted salamander larvae so as to measure population trends and individual growth rates. However, during the first survey period during the last week of May and the first week of June, salamanders had only begun emerging from eggs. During the second survey period (mid- to late June), salamanders had hatched, but wood frog tadpoles were dangerously close to being fully developed. Thus, a third round was conducted in mid-July so that two surveys were conducted between the period when the last embryo has hatched and the first individual has metamorphosed for each species.
Aside from additional work imposed by the different developmental schedules of wood frogs and spotted salamanders, by and large, the pipe sampling technique worked very well. We generally worked out a routine in which helpers would do the pipe sampling and bring me their quarry in numbered bins. I identified the animals, weighed amphibian larvae, and preserved a sample (n<30) of tadpoles for developmental staging in the lab since it was impractical to reliably stage tadpoles in the field.
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| SUNY ESF PhD student Jim Arrigoni plunges a pipe sampler into the water column to trap and sample amphibian larvae. |
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| Field technician Tess Youker delivers pipe samples to Jim Arrigoni, who is hiding from the rain and wind in the F150 mobile lab. |
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| Larval wood frogs and spotted salamanders captured with pipe sampler. |
Hydrological monitoring
With help from spring semester interns Nathan Heath, Becca Landis and Tom Maigret, we created and installed guages to measure water levels in each pool. Water levels have been recorded at least every 10 days since installation following ice out.
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| Surface and substrate temperature monitoring apparatus (left) and water level gauge (right). |
Temperature monitoring
Thermochron iButtons were deployed at the water surface and at the substrate in all pools in mid-November 2010, and recovered and replaced in late July 2011. Unfortunately, a large number of the units were corrupted, and I am uncertain whether this was due to exposure to harsh winter conditions or because I only double-coated units with Plasti-Dip, as opposed to triple-coating units that were deployed during the spring-to-autumn period of 2010, when zero failures occurred. Data from Hexagon 20 Pool E are shown below. Note the thermal inversions apparent in late November and mid-April.
With the support of an Edna Bailey Sussman Foundation internship, I sampled larval amphibians and macroinvertebrates in nine pools in southern NY on the property of Jim Curatolo of the Upper Susquehanna Coalition. Three pools were of natural origin, two were built in 2006, and four in 2008. The intent of this side-project was to assess development of invertebrate communities and production of amphibians at greater time scale than is permitted in the Heiberg pools, which were all constructed during 2010.
Shortcomings
Despite the successes described above, I was unable to deploy tiles for sampling periphyton. Although this certainly would have yielded interesting data in and of itself as well as in comparison to other biological data, it simply was not possible to undertake this component of the study along with the damands of other components.
Thanks!
I was fortunate this summer to have the help of three diligent, humorous and hardy people. Tess Youker of ESF was out at Heiberg more than anyone, and allowed me to frantically worry about many fewer things. As part-time interns, Shelby Persons of SUNY Cortland and Ryan Doherty of ESF did not feed quite as many mosquitos and deer flies as Tess, but their contributions of labor and cheer nonetheless are greatly appreciated.
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| Field technician Tess Youker steps carefully through the forest at night, intern Shelby Persons delivers more samples of larval amphibians, and intern Ryan Doherty admires his afternoon's work of waterproofing Thermochron iButtons |
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