DC Press: Salamander Hybrids Have a Leg Up on Mom and Dad

[wes_von_papineäu]

SCIENCE NOW (Washington, DC) 17 September 07 Salamander Hybrids Have a Leg Up on Mom and Dad (Jennifer Cutraro)
Hybrid plants often show a new vigor, but that's not usually true for animals sired by parents from two different species. A new study challenges this notion, however, by showing that hybrids of native and foreign salamanders in California have better survival rates than either parental species. It's the first example of a hybrid having a survival advantage over a threatened species, calling attention to an emerging conundrum in conservation.
As scientists probe deeper into the genetics of animals, time and again they've turned up evidence of hybridization between species (ScienceNOW, 14 June 2006). In most cases, hybrids are less fit than the original species, plagued by problems such as sterility or inviability--take the mule, for example. But a growing body of evidence shows that some hybrids are healthy enough to establish populations. This raises questions about the ecological effects of hybridization. Will hybrids outcompete their parental species or other organisms occupying the same niche?
That's a particularly important issue in the Salinas Valley, where the conservation of native, federally threatened California tiger salamanders has been a complex problem (Science, 10 September 2004, p. 1554). The natives have been breeding with banded salamanders introduced from Texas for more than 50 years, and hybrid populations have existed for much of that time. But until now, nobody knew how the hybrids fared compared to the original species. Evolutionary biologist Benjamin Fitzpatrick of the University of Tennessee, Knoxville, and H. Bradley Shaffer of the University of California, Davis, observed hybrid, native, and introduced salamanders in several breeding ponds. Hybrid larvae, they discovered, were significantly more likely to survive than those of either parental species. A genetic phenomenon known as hybrid vigor may be at work, the team reports online this week in the Proceedings of the National Academy of Sciences.
The finding raises several thorny issues. For example, should any populations of foreign or hybrid salamanders be eradicated to preserve the genetic purity of the California natives, which have been losing critical habitat for decades? Fitzpatrick also notes that the work may force conservationists to reevaluate what criteria to use in identifying individuals and populations that qualify for protection under the U.S. Endangered Species Act. "We will have to decide what it takes to qualify as native," he says.
Evolutionary geneticist Loren Rieseberg of the University of British Columbia in Vancouver, Canada, praises the team's use of molecular markers in natural populations to tease apart the components of hybrid vigor. But he cautions that without following the populations at least through to sexual maturity, it's difficult to draw conclusions about their ecological fate. "There might be fertility problems or ecological problems these hybrids might run into in another year," he says.

http://sciencenow.sciencemag.org/cgi/content/full/2007/917/5

 

[ajc]

Hybrid vigor between native and introduced salamanders raises new challenges for conservation

Hybrid vigor between native and introduced salamanders raises new challenges for conservation
http://www.pnas.org/cgi/content/short/0704791104v1

Hybridization between differentiated lineages can have many different consequences depending on fitness variation among hybrid offspring. When introduced organisms hybridize with natives, the ensuing evolutionary dynamics may substantially complicate conservation decisions. Understanding the fitness consequences of hybridization is an important first step in predicting its evolutionary outcome and conservation impact. Here, we measured natural selection caused by differential viability of hybrid larvae in wild populations where native California Tiger Salamanders (Ambystoma californiense) and introduced Barred Tiger Salamanders (Ambystoma tigrinum mavortium) have been hybridizing for 50–60 years. We found strong evidence of hybrid vigor; mixed-ancestry genotypes had higher survival rates than genotypes containing mostly native or mostly introduced alleles. Hybrid vigor may be caused by heterozygote advantage (overdominance) or recombinant hybrid vigor (due to epistasis or complementation). These genetic mechanisms are not mutually exclusive, and we find statistical support for both overdominant and recombinant contributions to hybrid vigor in larval tiger salamanders. Because recombinant homozygous genotypes can breed true, a single highly fit genotype with a mosaic of native and introduced alleles may eventually replace the historically pure California Tiger Salamander (listed as Threatened under the U.S. Endangered Species Act). The management implications of this outcome are complex: Genetically pure populations may not persist into the future, but average fitness and population viability of admixed California Tiger Salamanders may be enhanced. The ecological consequences for other native species are unknown.

 

[Jennewt]

Hi Alan, I moved your post here, where there is already a post about the same topic. Very interesting problem.

 

[paris]

related UC Davis post

I found this on line while looking for different things....check out their photo!


Thriving Hybrid Salamanders Contradict Common Wisdom
September 25, 2007


This photo shows three types of salamander larvae: native California tiger salamanders (Ambystoma californiense), barred tiger salamanders (Ambystoma tigrinum mavortium), and the hybrid offspring born when the two species mated. (Bruce Delgado/U.S. Bureau of Land Management)
A new UC Davis study not only has important findings for the future of California tiger salamanders, but also contradicts prevailing scientific thought about what happens when animal species interbreed.

The study, by former UC Davis doctoral student Benjamin Fitzpatrick (now on the faculty of University of Tennessee, Knoxville) and professor Bradley Shaffer, was published recently in the Proceedings of the National Academy of Sciences' online edition.

The salamander experts studied the survival rates and genetic makeup of three types of salamanders: native California tiger salamanders (Ambystoma californiense), which are protected under the U.S. Endangered Species Act; barred tiger salamanders that were introduced in California from Texas in the 1950s (Ambystoma tigrinum mavortium); and the hybrid offspring born when the two species mated.

They found that more of the hybrid young survived in the wild than did young of the native or the introduced species -- quite a surprise, since animal hybrids are usually less fit than their parents ("hybrid vigor" is largely limited to plant crosses).

That raises difficult questions for managing endangered native salamander populations, Shaffer said. Some conservationists might say that hybrids are an acceptable change, since they are favored by natural selection, and "improve" the original species. Others might consider hybrids to be genetically impure and regard them as threats to the native salamanders, their competitors and their prey.

Such questions will arise more frequently, Shaffer said, as humans both create new opportunities for hybridization with introduced species, and improve the genetic analyses that detect them.

The study, titled "Hybrid vigor between native and introduced salamanders raises new challenges for conservation," was funded by the U.S. Environmental Protection Agency (EPA), National Science Foundation (NSF), U.S. Department of Agriculture, CALFED Bay-Delta Program, and UC Davis Agricultural Experiment Station.

UC Davis graduate programs in ecology and evolutionary biology are among the best in the nation, and were ranked first in 2007 by U.S. News & World Report.

source
http://www.news.ucdavis.edu/search/news_detail.lasso?id=8316

 

[Jennewt]

The photo is intriguing, but I'm frustrated by not knowing which ones are the hybrids.