Passive warming reduces stress and shifts reproductive effort in the Antarctic moss,<i>Polytrichastrum alpinum</i>

Shortlidge, Erin E.; Eppley, Sarah M.; Köhler, Hans Peter; Rosenstiel, Todd N.; Zúñiga, Gustavo E.; Casanova-Katny, Angélica

doi:10.1093/aob/mcw201

Cited by 24 publications

(26 citation statements)

References 99 publications

(105 reference statements)

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“…Each panel has five holes of 1 cm in diameter to allow for improved airflow and avoid excessive warming. The OTCs were previously tested for 2 years for resistance to Antarctic climatic conditions and are similar in design to others used in Signy and Anchorage Islands, Antarctica . Each corresponding control was demarcated region of the same size and shape as the OTC footprint within ∼3.0 m of each OTC.…”

Section: Methodsmentioning

confidence: 99%

Passive warming effect on soil microbial community and humic substance degradation in maritime Antarctic region

et al. 2018

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Although the maritime Antarctic has undergone rapid warming, the effects on indigenous soil-inhabiting microorganisms are not well known. Passive warming experiments using open-top chamber (OTC) have been performed on the Fildes Peninsula in the maritime Antarctic since 2008. When the soil temperature was measured at a depth of 2-5 cm during the 2013-2015 summer seasons, the mean temperature inside OTC (OTC-In) increased by approximately 0.8 °C compared with outside OTC (OTC-Out), while soil chemical and physical characteristics did not change. Soils (2015 summer) from OTC-In and OTC-Out were subjected to analysis for change in microbial community and degradation rate of humic substances (HS, the largest pool of recalcitrant organic carbon in soil). Archaeal and bacterial communities in OTC-In were minimally affected by warming compared with those in OTC-Out, with archaeal methanogenic Thermoplasmata slightly increased in abundance. The abundance of heterotrophic fungi Ascomycota was significantly altered in OTC-In. Total bacterial and fungal biomass in OTC-In increased by 20% compared to OTC-Out, indicating that this may be due to increased microbial degradation activity for soil organic matter (SOM) including HS, which would result in the release of more low-molecular-weight growth substrates from SOM. Despite the effects of warming on the microbial community over the 8-years-experiments warming did not induce any detectable change in content or structure of polymeric HS. These results suggest that increased temperature may have significant and direct effects on soil microbial communities inhabiting maritime Antarctic and that soil microbes would subsequently provide more available carbon sources for other indigenous microbes.

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Section: Methodsmentioning

confidence: 99%

Passive warming effect on soil microbial community and humic substance degradation in maritime Antarctic region

et al. 2018

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“…Casanova-Katny et al (2016) found significant increases in sporophyte production in P. alpinum under passive warming OTC treatments after seven years of experimental warming, however we found no sporophytes in P. alpinum during our study. Our results are similar to those of Shortlidge et al (2016), who found increases in individual female and male gametangia production, but no increase in sporophyte production, in P. alpinum which suggests that warming may relieve environmental constraints on reproductive effort. Sexual reproduction in mosses may be limited by many factors such as spermlimitation (Rydgren et al 2006), resource limitation (Stark et al 2000(Stark et al , 2009 , and abiotic stress (Bowker et al 2000, Eppley et al 2011.…”

Section: Positive Effects Of Warming On P Alpinum Reproductive Biologysupporting

confidence: 89%

“…Our study is one of only two other studies to our knowledge that explores the effects of warming on moss reproductive output (Casanova-Katny et al 2016, Shortlidge et al 2016. We found that P. alpinum in warmed (OTC) plots exhibited significantly more female sex expression than control plots (Table 4.2 & Figure 4.8), similar to findings in two other Antarctic bryophyte studies (Casanova-Katny et al 2016, Shortlidge et al 2016). Casanova-Katny et al (2016) found significant increases in sporophyte production in P. alpinum under passive warming OTC treatments after seven years of experimental warming, however we found no sporophytes in P. alpinum during our study.…”

Section: Positive Effects Of Warming On P Alpinum Reproductive Biologysupporting

confidence: 83%

“…After eight years of passive warming, we observed no distinguishable effects on cryptogam community composition or species richness, a finding consistent with other Antarctic passive warming studies (Bokhorst et al 2007(Bokhorst et al , 2015 (Figure 4.3 & Figure 4.4b). However, we did find Bartramia patens occurred only in warmed (OTC) plots (Table 4.1), a common species recorded in other Antarctic studies Smith 1993a, Marshall andConvey 1997) and within OTC experiments (Casanova-Katny et al 2016, Shortlidge et al 2016) that found experimental warming has a positive effect on B.…”

Section: No Effects Of Experimental Warming On Cryptogam Community Cosupporting

confidence: 52%

“…Yet, increasing climate warming on the western Antarctic peninsula is anticipated to encourage the growth and spreading of moss vegetation in Antarctica, which will further influence terrestrial ecosystem succession (Turetsky 2003, Convey et al 2009 and hold implications for the microorganism and invertebrate communities they sustain (Convey et al 2009). Moreover, few studies on Antarctica mosses have examined the effects of warming on sexual reproduction (Casanova-Katny et al 2016, Shortlidge et al 2016 which is key to understanding dynamics of developing moss communities, and to our knowledge, no studies to date have examined both reproductive output and associated invertebrate communities of the dominant moss species, despite the important ecological connection of invertebrates and moss fertilization (Cronberg et al 2006, Rosenstiel et al 2012). Given the magnitude of terrestrial vegetative cover comprised of mosses in maritime Antarctica, the study of species-specific moss responses to warming is critical to better provide insight into specific organism's responses to warming and the links to larger ecosystem processes of terrestrialization in Antarctica.…”

Section: Introductionmentioning

confidence: 99%

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Examination of Human Impacts on the Biodiversity and Ecology of Lichen and Moss Communities

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Globally, more than half of the world's population is now living in urban areas and it is well accepted that human activities (e.g. climate warming, pollution, landscape homogenization) pose a multitude of threats to ecosystems. Largely, human-related impacts on biodiversity will hold consequences for larger ecological processes, and research looking into human impacts on sensitive epiphytic lichen and moss communities is an emerging area of research. While seemingly small, lichen and moss communities exist on nearly every terrestrial ecosystem on Earth and contribute largely to wholesystem processes (e.g. hydrology, mineral cycling, food web energetics) worldwide. To further examine human impacts on epiphytic communities, I conducted three studies examining urbanization and climate warming effects on epiphytic lichen and moss biodiversity and ecology. The first study I revisited a historic urban lichen community study to assess how urban lichen communities have responded to regional air quality changes occurring over the last nearly two decades. I further investigated, for the first time, the biodiversity of urban tree canopy-dwelling lichen communities in a native coniferous tree species, Pseudotsuga menziesii, at sites within the larger urban study. I found that urban parks and forested areas harbor a species rich community of lichens epiphytes. Further, I found evidence for the distinct homogenization of urban epiphytic lichen communities, suggesting that expanding beyond simplistic measures of biodiversity to consider community composition and functional biodiversity may be necessary when assessing the ecology and potential ecosystem services of epiphyte communites within urbanizing landscapes. ii Next, I present the first tall tree canopy study across a regional gradient of urbanization near Portland, Oregon, USA. I found that tall tree canopy epiphyte communities change dramatically along gradients of increasing urbanization, most notably by the transitioning of species functional groups from sensitive, oligotrophic species to a dominance of urban-tolerant, eutrophic species, tracking with published results from regional ground-based studies. The implications these dramatic shifts in species composition have on essential PNW ecosystem processes, like N-fixation and canopy microclimate regulation, is still not well understood and difficult to conduct ecosystem-scale projects to formally evaluate. However, we find strong evidence that native conifer trees in urban areas may provide a diversity of essential ecosystem services, including providing stratified habitat for epiphyte communities and their associated microarthropod communities and the scavenging of excess atmospherically deposited nutrients. Future work is needed to understand how losses in canopy N fixation and species with large biomass (both lichens and bryophytes) will affect nutrient and hydrologic cycling in the PNW region, which continue to undergo rapid growth and urbanization. The final chapter investigates the impacts of passive warming by...

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Rapid population sex‐ratio changes in the moss Ceratodon purpureus

Eppley

Rosenstiel

Chmielewski

et al. 2018

American J of Botany

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Passive warming reduces stress and shifts reproductive effort in the Antarctic moss,Polytrichastrum alpinum

Cited by 24 publications

References 99 publications

Passive warming effect on soil microbial community and humic substance degradation in maritime Antarctic region

Passive warming effect on soil microbial community and humic substance degradation in maritime Antarctic region

Examination of Human Impacts on the Biodiversity and Ecology of Lichen and Moss Communities

Rapid population sex‐ratio changes in the moss Ceratodon purpureus

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