Dancing with dirt and wires; reconciling the embodied and the digital in site responsive collaborative practice

Acknowledging the practitioner-researcher model and collaboration inherent to twenty-first-century contemporary performance practices, this co- authored chapter is offered as an extension of an ongoing collaboration between two dance artists and a photographer working in outdoor performance under the project enter & inhabit. The writing process and resulting chapter moves between a reflection on process, a document of practice and a theorisation around live and digital composition, thus inviting a reconsideration of the relationship between the real and the virtual

everything is at once: Reflections on embodied photography and collaborative process

In discussion with his co-collaborators, dance artists Natalie Garrett Brown and Amy Voris, this interview explores the photographic process of Christian Kipp, landscape and dance photographer, as he reflects on his experience of working on the Enter & Inhabit project. The questions asked by Garrett Brown and Voris were generated through movement and reflective writing in response to the photographic collection exhibited as part of the 2011 Dance and Somatic Practices Conference, Coventry, UK. In particular, the article explores the interrelationship between the somatic-informed movement practices and performance score creation of Garrett Brown and Voris and the sensorial play of Kipp’s photography. Co-authored by Garrett Brown, Kipp and Voris, this collection of questions and responses seeks to continue rather than merely document the Enter & Inhabit collaborative process

Nomadic Making; enacting difference through collaborative performance practice

This article considers how scored, collaborative performance practice enacts Braidotti’s Nomadic subject and disrupts advanced capitalism’s suture of object and subject formation (Lepecki) thereby offering a means for posthumans to ‘become imperceptible’ (Braidotti after Deleuze). Collaborative performance practice, I argue offers a lived experience of the non-unitary subject and political potential of pure difference. I suggest also that ‘spectator studies’ (Melrose) reconsiders its focus on object over process by arguing that choreographic knowledge resides not in the event or the performance score but the processes of assemblage and in-between relations of people and practices (Manning)

Convergent evolution in social swallows (Aves: Hirundinidae)

Behavioral shifts can initiate morphological evolution by pushing lineages into new adaptive zones. This has primarily been examined in ecological behaviors, such as foraging, but social behaviors may also alter morphology. Swallows and martins (Hirundinidae) are aerial insectivores that exhibit a range of social behaviors, from solitary to colonial breeding and foraging. Using a well‐resolved phylogenetic tree, a database of social behaviors, and morphological measurements, we ask how shifts from solitary to social breeding and foraging have affected morphological evolution in the Hirundinidae. Using a threshold model of discrete state evolution, we find that shifts in both breeding and foraging social behavior are common across the phylogeny of swallows. Solitary swallows have highly variable morphology, while social swallows show much less absolute variance in all morphological traits. Metrics of convergence based on both the trajectory of social lineages through morphospace and the overall morphological distance between social species scaled by their phylogenetic distance indicate strong convergence in social swallows, especially socially foraging swallows. Smaller physical traits generally observed in social species suggest that social species benefit from a distinctive flight style, likely increasing maneuverability and foraging success and reducing in‐flight collisions within large flocks. These results highlight the importance of sociality in species evolution, a link that had previously been examined only in eusocial insects and primates.Using a bird family with diversity in social behavior, the swallows and martins (Hirundinidae), we examine how switches between social and nonsocial behavior influence morphological evolution. We find strong convergence in social swallow species to small body morphology, while solitary swallow species exhibit highly variable morphology. These results illustrate the importance of social behavior on morphological evolution. Photograph by Joel G. Jorgensen.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/136032/1/ece32641.pdfhttp://deepblue.lib.umich.edu/bitstream/2027.42/136032/2/ece32641_am.pd

Radium inputs into the Arctic Ocean from rivers: a basin-wide estimate

Radium isotopes have been used to trace nutrient, carbon, and trace metal fluxes inputs from ocean margins. However, these approaches require a full accounting of radium sources to the coastal ocean including rivers. Here, we aim to quantify river radium inputs into the Arctic Ocean for the first time for 226Ra and to refine the estimates for 228Ra. Using new and existing data, we find that the estimated combined (dissolved plus desorbed) annual 226Ra and 228Ra fluxes to the Arctic Ocean are 7.0 – 9.4 x 1014 dpm y-1 and 15-18 x 1014 dpm y-1, respectively. Of these totals, 44% and 60% of the river 226Ra and 228Ra, respectively are from suspended sediment desorption, which were estimated from laboratory incubation experiments. Using Ra isotope data from 20 major rivers around the world, we derived global annual 226Ra and 228Ra fluxes of 7.4 – 17 x 1015 and 15 – 27 x 1015 dpm y-1, respectively. As climate change spurs rapid Arctic warming, hydrological cycles are intensifying and coastal ice cover and permafrost are diminishing. These river radium inputs to the Arctic Ocean will serve as a valuable baseline as we attempt to understand the changes that warming temperatures are having on fluxes of biogeochemically important elements to the Arctic coastal zone

Observations of tidal variability on the New England shelf

Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research 109 (2004): C06010, doi:10.1029/2003JC001972.Observations from the Coastal Mixing and Optics experiment moored array, deployed from August 1996 through June 1997, are used to describe barotropic and baroclinic tidal variability over the New England shelf. The dominant M 2 tidal elevations decrease toward the northeast to a minimum over the Nantucket shoals (about 34 cm), and barotropic tidal current amplitudes increase strongly toward the northeast to a maximum over the shoals (about 35 cm s−1). Estimates of the depth-averaged M 2 momentum balance indicate that tidal dynamics are linear, and along-shelf pressure gradients are as large as cross-shelf pressure gradients. In addition, tidal current ellipses are weakly polarized, confirming that the dynamics are more complex than simple plane waves. The vertical structure of the M 2 currents decreases in amplitude and phase (phase lead near bottom) over the bottom 20 m. The M 2 momentum deficit near the bottom approximately matches direct covariance estimates of stress, confirming the effects of stress on current structure in the tidally driven bottom boundary layer. Baroclinic current variability at tidal frequencies is small (2 cm s−1 amplitude), with a predominantly mode 1 vertical structure. High-frequency (approaching the buoyancy frequency) internal solitons are observed following the pycnocline. The internal solitons switch from waves of depression to waves of elevation when the depth of maximum stratification is deeper than half the water column depth. Both low-mode baroclinic tidal and high-frequency internal wave energy decrease linearly with bottom depth across the shelf.Funding for the CMO experiment and subsequent analysis was provided by the Office of Naval Research under grants N00014-95-1-0339 and N00014-01-1-0140

Localization of ABCG5 and ABCG8 proteins in human liver, gall bladder and intestine

BACKGROUND: The molecular mechanisms that regulate the entry of dietary sterols into the body and their removal via hepatobiliary secretion are now beginning to be defined. These processes are specifically disrupted in the rare autosomal recessive disease, Sitosterolemia (MIM 210250). Mutations in either, but not both, of two genes ABCG5 or ABCG8, comprising the STSL locus, are now known to cause this disease and their protein products are proposed to function as heterodimers. Under normal circumstances cholesterol, but not non-cholesterol sterols, is preferentially absorbed from the diet. Additionally, any small amounts of non-cholesterol sterols that are absorbed are rapidly taken up by the liver and preferentially excreted into bile. Based upon the defects in sitosterolemia, ABCG5 and ABCG8 serve specifically to exclude non-cholesterol sterol entry at the intestinal level and are involved in sterol excretion at the hepatobiliary level. METHODS: Here we report the biochemical and immuno-localization of ABCG5 and ABCG8 in human liver, gallbladder and intestine using cell fractionation and immunohistochemical analyses. RESULTS: We raised peptide antibodies against ABCG5 and ABCG8 proteins. Using human liver samples, cell fractionation studies showed both proteins are found in membrane fractions, but they did not co-localize with caveolin-rafts, ER, Golgi or mitochondrial markers. Although their distribution in the sub-fractions was similar, they were not completely contiguous. Immunohistochemical analyses showed that while both proteins were readily detectable in the liver, ABCG5 was found predominately lining canalicular membranes, whereas ABCG8 was found in association with bile duct epithelia. At the cellular level, ABCG5 appeared to be apically expressed, whereas ABCG8 had a more diffuse expression pattern. Both ABCG5 and ABCG8 appeared to localize apically as shown by co-localization with MRP2. The distribution patterns of ABCG5 and ABCG8 in the gallbladder were very similar to each other. In the small intestine both ABCG5 and ABCG8 appear to line the brush border. However, at the level of the enterocyte, the cellular distribution patterns of ABCG5 and ABCG8 differed, such that ABCG5 was more diffuse, but ABCG8 was principally apical. Using standard deglycosylation methods, ABCG5 and ABCG8 do not appear to be glycosylated, suggesting a difference between human and mouse proteins. CONCLUSION: We report the distribution patterns of ABCG5 and ABCG8 in human tissues. Cell fractionation studies showed that both proteins co-fractionated in general, but could also be found independent of each other. As predicted, they are expressed apically in both intestine and liver, although their intracellular expression patterns are not completely congruent. These studies support the concept of heterodimerization of ABCG5 and ABCG8, but also support the notion that these proteins may have an independent function