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Journal articles on the topic 'Flier art'

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Published: 4 June 2021
Last updated: 17 February 2022

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1

Audoux, Benjamin. "Singular link Floer homology." Algebraic & Geometric Topology 9, no. 1 (March 20, 2009): 495–535. http://dx.doi.org/10.2140/agt.2009.9.495.

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2

Hutchings, Michael. "Floer homology of families I." Algebraic & Geometric Topology 8, no. 1 (May 12, 2008): 435–92. http://dx.doi.org/10.2140/agt.2008.8.435.

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3

Webb, J. D., and F. W. Knapp. "Efficacy of Insecticide Ear Tags on Cattle in Central Kentucky, 1995." Arthropod Management Tests 21, no. 1 (January 1, 1996): 397. http://dx.doi.org/10.1093/amt/21.1.397.

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Abstract Tests were conducted on 5 beef cattle herds in central Kentucky using insecticide ear tags against horn flies and face flies. Ear tags were applied 1/ear in all tests during a 5-day period starting 10 Jun 1995. All tags were applied 1 per ear on all adults and weaned animals in each group. Using binoculars, horn fly estimates were taken on one side of 10 animals while face flies were counted on the head and face of the same animals at weekly intervals.
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4

Phillpot, Clive. "Flies in the Files: Ephemera in the Art Library." Art Documentation: Journal of the Art Libraries Society of North America 14, no. 1 (April 1995): 13–14. http://dx.doi.org/10.1086/adx.14.1.27948707.

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5

Hedden, Matthew. "On knot Floer homology and cabling." Algebraic & Geometric Topology 5, no. 3 (September 20, 2005): 1197–222. http://dx.doi.org/10.2140/agt.2005.5.1197.

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6

Ozsváth, Peter, and Zoltán Szabó. "Knot Floer homology and integer surgeries." Algebraic & Geometric Topology 8, no. 1 (February 8, 2008): 101–53. http://dx.doi.org/10.2140/agt.2008.8.101.

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7

Juhasz, Andras. "Knot Floer homology and Seifert surfaces." Algebraic & Geometric Topology 8, no. 1 (May 12, 2008): 603–8. http://dx.doi.org/10.2140/agt.2008.8.603.

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8

Roberts, Lawrence. "Heegaard–Floer homology and string links." Algebraic & Geometric Topology 9, no. 1 (January 6, 2009): 29–101. http://dx.doi.org/10.2140/agt.2009.9.29.

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9

Sahamie, Bijan. "Dehn twists in Heegaard Floer homology." Algebraic & Geometric Topology 10, no. 1 (March 3, 2010): 465–524. http://dx.doi.org/10.2140/agt.2010.10.465.

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10

Ozsváth, Peter S., and Zoltán Szabó. "Knot Floer homology and rational surgeries." Algebraic & Geometric Topology 11, no. 1 (January 6, 2010): 1–68. http://dx.doi.org/10.2140/agt.2011.11.1.

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11

Eftekhary, Eaman. "Floer homology and splicing knot complements." Algebraic & Geometric Topology 15, no. 6 (December 31, 2015): 3155–213. http://dx.doi.org/10.2140/agt.2015.15.3155.

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12

Harvey, Shelly, and Danielle O’Donnol. "Heegaard Floer homology of spatial graphs." Algebraic & Geometric Topology 17, no. 3 (July 17, 2017): 1445–525. http://dx.doi.org/10.2140/agt.2017.17.1445.

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13

Ince, Kenan. "Untwisting information from Heegaard Floer homology." Algebraic & Geometric Topology 17, no. 4 (August 3, 2017): 2283–306. http://dx.doi.org/10.2140/agt.2017.17.2283.

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14

Skendzic, Elizabeth, and Cynthia Keler. "Fruit Flies & the Gut Microbiome: Redesign-Your-Bacteria Lab Exercise." American Biology Teacher 81, no. 1 (January 1, 2019): 47–51. http://dx.doi.org/10.1525/abt.2019.81.1.47.

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This lab introduces students to experimental design in an inquiry lab exercise that investigates the gut microbiome, basic microbiology techniques, and the broader topic of bacteriology. Fruit flies are used as a model system to study the impact that foods, food additives, and/or antibiotics have on the gut microbiome. One of the major bacteria in the guts of fruit flies is Lactobacillus, which is easy to grow in the lab. This exercise is done in three consecutive lab sessions. During Lab 1, students prepare a standard nutritive medium that has been mixed with a substance of their choice, add the fruit flies to the medium, and practice serial dilution with a simulation. During Lab 2, students plate mashed fruit flies on MRS medium to look at the change in Lactobacillus levels. During Lab 3, students count and determine the change in the number of Lactobacillus in their tested substance, Gram stain selected colonies, and discuss their results as a class. SALG surveys indicated a significant gain in their understanding of the microbiology concepts introduced in this lab.
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15

Antonov, Alexandre, Erikas Lutovinovas, Gennady Anatol Ivanov, and Nadezhda Pastukhova. "Adaptation and prospects of breeding flies Black lvink (Hermetia illucens) in circumpolar region." Principles of the Ecology 24, no. 3 (September 2017): 4–19. http://dx.doi.org/10.15393/j1.art.2017.6302.

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16

Grover, Dhruv, John Tower, and Simon Tavaré. "O fly, where art thou?" Journal of The Royal Society Interface 5, no. 27 (March 26, 2008): 1181–91. http://dx.doi.org/10.1098/rsif.2007.1333.

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In this paper, the design of a real-time image acquisition system for tracking the movement of Drosophila in three-dimensional space is presented. The system uses three calibrated and synchronized cameras to detect multiple flies and integrates the detected fly silhouettes to construct the three-dimensional visual hull models of each fly. We used an extended Kalman filter to estimate the state of each fly, given past positions from the reconstructed fly visual hulls. The results show that our approach constructs the three-dimensional visual hull of each fly from the detected image silhouettes and robustly tracks them at real-time rates. The system is suitable for a more detailed analysis of fly behaviour.
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17

Miller, R. W. "Evaluation of Three Ear Tag Formulations for Control of Flies on Beef Cattle, 1993." Arthropod Management Tests 19, no. 1 (January 1, 1994): 366. http://dx.doi.org/10.1093/amt/19.1.366.

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Abstract Three herds (36-122 head per herd) of Angus cattle (cow-calf or yearling heifers) located at the Wye Research and Education Center, Queenstown, MD, were tagged with one of three ear tag formulations. On 17 May one of the herds was tagged with Optimizer tags (2 per head) and on 2 Jun the other 2 herds were tagged with Python tags (2 per head) or experimental YT-615 tags (1 per head). A herd of mixed-breed beef cattle located approximately 4 km from the treated cattle served as an untreated control. Fly density was determined by making biweekly counts on 15 cattle in each of the herds. Counts were made ol face flies/face, horn flies/animal, and stable flies/4 legs. Two (Optimizer herd) or 3 (other 2 herds) pretreatment and 11 or 10 posttreatment counts were made.
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18

Jabuka, Stanislav, and Thomas E. Mark. "Heegaard Floer homology of certain mapping tori." Algebraic & Geometric Topology 4, no. 2 (September 9, 2004): 685–719. http://dx.doi.org/10.2140/agt.2004.4.685.

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19

Eftekhary, Eaman. "Longitude Floer homology and the Whitehead double." Algebraic & Geometric Topology 5, no. 4 (October 15, 2005): 1389–418. http://dx.doi.org/10.2140/agt.2005.5.1389.

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20

Grigsby, J. Elisenda. "Knot Floer homology in cyclic branched covers." Algebraic & Geometric Topology 6, no. 3 (September 25, 2006): 1355–98. http://dx.doi.org/10.2140/agt.2006.6.1355.

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21

Lowrance, Adam. "On knot Floer width and Turaev genus." Algebraic & Geometric Topology 8, no. 2 (July 25, 2008): 1141–62. http://dx.doi.org/10.2140/agt.2008.8.1141.

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22

Gallais, Étienne. "Sign refinement for combinatorial link Floer homology." Algebraic & Geometric Topology 8, no. 3 (September 15, 2008): 1581–92. http://dx.doi.org/10.2140/agt.2008.8.1581.

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23

Kronheimer, Peter, and Tomasz Mrowka. "Instanton Floer homology and the Alexander polynomial." Algebraic & Geometric Topology 10, no. 3 (August 11, 2010): 1715–38. http://dx.doi.org/10.2140/agt.2010.10.1715.

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24

Ai, Yinghua, and Thomas D. Peters. "The twisted Floer homology of torus bundles." Algebraic & Geometric Topology 10, no. 2 (March 19, 2010): 679–95. http://dx.doi.org/10.2140/agt.2010.10.679.

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25

Ni, Yi. "Nonseparating spheres and twisted Heegaard Floer homology." Algebraic & Geometric Topology 13, no. 2 (April 17, 2013): 1143–59. http://dx.doi.org/10.2140/agt.2013.13.1143.

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26

Doig, Margaret I. "Finite knot surgeries and Heegaard Floer homology." Algebraic & Geometric Topology 15, no. 2 (April 22, 2015): 667–90. http://dx.doi.org/10.2140/agt.2015.15.667.

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27

Zhan, Bohua. "Combinatorial proofs in bordered Heegaard Floer homology." Algebraic & Geometric Topology 16, no. 5 (November 7, 2016): 2571–636. http://dx.doi.org/10.2140/agt.2016.16.2571.

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28

Hanselman, Jonathan. "Bordered Heegaard Floer homology and graph manifolds." Algebraic & Geometric Topology 16, no. 6 (December 15, 2016): 3103–66. http://dx.doi.org/10.2140/agt.2016.16.3103.

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29

Chen, Guanheng. "On cobordism maps on periodic Floer homology." Algebraic & Geometric Topology 21, no. 1 (February 25, 2021): 1–103. http://dx.doi.org/10.2140/agt.2021.21.1.

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30

Meadow, Richard, John D. Vandenberg, Anthony M. Shelton, and D. Wesley Watson. "Microbial Control of Cabbage Maggot-Preliminary Screenings of Fungal Isolates, 1995." Arthropod Management Tests 21, no. 1 (January 1, 1996): 413. http://dx.doi.org/10.1093/amt/21.1.413.

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Abstract Adult CM were exposed to dry conidia of isolates of Beauvaria bassiana (Bb), Metarhizium anisopilae (Ma) or Paeciomyces fumosoroseus (Pf). Two B. bassiana isolates were from Cornell University (P89, L90) isolated from Musca domestica (Diptera: Muscidae), one was from Mycoteh Corp., Butte, MT (Myc 726) originally isolated from southern corn rootworm, Diabrotica undecimpuntata (Coleoptera: Chrysomelidae), re-isolated from a grasshopper, Melanoplus sp. (Orthoptera:Acrididae), and then re-isolated from silverleaf whitefly, Bemesia argentiflora (Homoptera: Aleyrodidae). The other isolates were from the USDA-ARS Collection of Entomophagous Fungal Cultures. One B. bassiana isolate, 4012, was isolated from Delia radicum (Diptera: Anthomyiidae). The P. fumosoroseus isolates were number 1626 from M. autumnalis (Diptera: Muscidae), 1644, 1645, 1867 and 1868 from M. domestica, 1646 from Calliphora spp. (Diptera: Calliphoridae), and 887 from unidentified Diptera. The M. anisopilae isolates were 2521 from Deois spp. (Homoptera: Cercopidae), 3540 from Gelleria mellonella (Lepidoptera: Pyralidae) and 4862 and 4865 from soil. Flies from rearings at the New York State Agricultural Experiment Station, Geneva, NY, were exposed to the fungi by placing 5 flies in a centrifuge tube containing conidia scraped directly from culture plates. The flies were then released into small screened plastic cages, which were placed in chambers with constant temperature of 21° C and L:D 15: 9. There were 3 replicates. Mortality was assessed after 48, 120 and 160h. Dead flies were placed in petri dishes with moistened filter paper to assess infection.
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31

Rasmussen, Jacob. "Floer homology of surgeries on two-bridge knots." Algebraic & Geometric Topology 2, no. 2 (October 2, 2002): 757–89. http://dx.doi.org/10.2140/agt.2002.2.757.

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32

Hutchings, Michael, and Michael G. Sullivan. "The periodic Floer homology of a Dehn twist." Algebraic & Geometric Topology 5, no. 1 (April 17, 2005): 301–54. http://dx.doi.org/10.2140/agt.2005.5.301.

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33

Levine, Adam Simon. "Computing knot Floer homology in cyclic branched covers." Algebraic & Geometric Topology 8, no. 2 (July 25, 2008): 1163–90. http://dx.doi.org/10.2140/agt.2008.8.1163.

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34

Wu, Zhongtao. "Perturbed Floer homology of some fibered three-manifolds." Algebraic & Geometric Topology 9, no. 1 (February 23, 2009): 337–50. http://dx.doi.org/10.2140/agt.2009.9.337.

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35

Grigsby, J. Elisenda, and Stephan M. Wehrli. "Khovanov homology, sutured Floer homology and annular links." Algebraic & Geometric Topology 10, no. 4 (September 30, 2010): 2009–39. http://dx.doi.org/10.2140/agt.2010.10.2009.

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36

Mathews, Daniel V. "Sutured Floer homology, sutured TQFT and noncommutative QFT." Algebraic & Geometric Topology 11, no. 5 (September 24, 2011): 2681–739. http://dx.doi.org/10.2140/agt.2011.11.2681.

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37

Petkova, Ina, and Vera Vértesi. "A self-pairing theorem for tangle Floer homology." Algebraic & Geometric Topology 16, no. 4 (September 12, 2016): 2127–41. http://dx.doi.org/10.2140/agt.2016.16.2127.

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38

Clarkson, Corrin. "Three-manifold mutations detected by Heegaard Floer homology." Algebraic & Geometric Topology 17, no. 1 (January 26, 2017): 1–16. http://dx.doi.org/10.2140/agt.2017.17.1.

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39

Truong, Linh. "Truncated Heegaard Floer homology and knot concordance invariants." Algebraic & Geometric Topology 19, no. 4 (August 16, 2019): 1881–901. http://dx.doi.org/10.2140/agt.2019.19.1881.

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40

Liu, Beibei. "Four-genera of links and Heegaard Floer homology." Algebraic & Geometric Topology 19, no. 7 (December 17, 2019): 3511–40. http://dx.doi.org/10.2140/agt.2019.19.3511.

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41

Li, Zhenkun. "Contact structures, excisions and sutured monopole Floer homology." Algebraic & Geometric Topology 20, no. 5 (November 4, 2020): 2553–88. http://dx.doi.org/10.2140/agt.2020.20.2553.

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42

Cartiere, Cameron. "Art and Environmental Action, One Bird at a Time." Journal of Public Space, Vol. 5 n. 4 (December 1, 2020): 7–24. http://dx.doi.org/10.32891/jps.v5i4.1311.

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The environmental problems of climate change and species decline can feel overwhelming. Individuals are often at a loss, questioning what impact they can actually have. Through chART Projects, we have witnessed the dramatic effect of community-engaged art as a direct path to environmental action and impact on local ecosystems. During the 27thInternational Ornithological Congress, bird enthusiasts from around the world focused their attention on Vancouver, Canada. This article is a reflection on how chART took advantage of this assembly, creating an ambitious venture aiming for a sustainable effect on the public’s relationship to urban birds. As the Crow Flies was a public art project bringing creative connections to urban birds directly into the hands of the public. Works included sited-sculpture, community-engaged interventions, projections, workshops, performances, and 6,000 ceramic crows. chART’s founder, Cameron Cartiere has been working with an interdisciplinary team to address the loss of pollinators through Border Free Bees. That research project used environment-based art to engage communities to take positive action in order to improve conditions for pollinators, with tremendous success. As the Crow Flies took a similar approach to highlight the loss of bird species and actions individuals could take to improve the odds for their feathered neighbours.
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43

Hunsberger, Adrian, and Ruben Regalado. "FIRE ANTS HAVE MET THEIR MATCH: THE ESTABLISHMENT OF THE DECAPITATING PHORID FLY IN SOUTH FLORIDA." HortScience 41, no. 3 (June 2006): 499A—499. http://dx.doi.org/10.21273/hortsci.41.3.499a.

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The red imported fire ant (Solenopsis invicta) has become a serious agricultural and animal pest in the southern U.S. since its accidental introduction in the 1930s. Traditionally, this pest ant has been under chemical control with very limited success and treatments must be repeated on a regular basis. One strategy to manage the red imported fire ant, which has been tried in parts of the southern U.S., is to use biocontrol agents to reduce fire ant populations. We released decapitating phorid flies (Pseudacteon tricuspis) as a self-sustaining biocontrol agent specific to S. invicta at two sites in South Florida during the spring of 2003 (site 1) and 2005 (site 2). Establishment of fly populations was monitored by disturbing 10 fire ant mounds and inspecting the number of hovering flies for 15 min. per mound. At site 1, within 1.5 years, 30% of mounds were positive for phorid flies and total estimated fire ant mounds decreased by 94%. At site 2, the number of mounds was recorded 1 day prerelease and 2 months postrelease. Ant mound density decreased by 71.4% with 73% of the remaining ant mounds positive for flies. This study confirms the successful establishment of the decapitating phorid fly in South Florida.
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44

Odeniran, Paul Olalekan, Akindele Akano Onifade, Ewan Thomas MacLeod, Isaiah Oluwafemi Ademola, Simon Alderton, and Susan Christina Welburn. "Mathematical modelling and control of African animal trypanosomosis with interacting populations in West Africa—Could biting flies be important in main taining the disease endemicity?" PLOS ONE 15, no. 11 (November 20, 2020): e0242435. http://dx.doi.org/10.1371/journal.pone.0242435.

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African animal trypanosomosis (AAT) is transmitted cyclically by tsetse flies and mechanically by biting flies (tabanids and stomoxyines) in West Africa. AAT caused by Trypanosoma congolense, T. vivax and T. brucei brucei is a major threat to the cattle industry. A mathematical model involving three vertebrate hosts (cattle, small ruminants and wildlife) and three vector flies (Tsetse flies, tabanids and stomoxyines) was described to identify elimination strategies. The basic reproduction number (R0) was obtained with respect to the growth rate of infected wildlife (reservoir hosts) present around the susceptible population using a next generation matrix technique. With the aid of suitable Lyapunov functions, stability analyses of disease-free and endemic equilibria were established. Simulation of the predictive model was presented by solving the system of ordinary differential equations to explore the behaviour of the model. An operational area in southwest Nigeria was simulated using generated pertinent data. The R0 < 1 in the formulated model indicates the elimination of AAT. The comprehensive use of insecticide treated targets and insecticide treated cattle (ITT/ITC) affected the feeding tsetse and other biting flies resulting in R0 < 1. The insecticide type, application timing and method, expertise and environmental conditions could affect the model stability. In areas with abundant biting flies and no tsetse flies, T. vivax showed R0 > 1 when infected wildlife hosts were present. High tsetse populations revealed R0 <1 for T. vivax when ITT and ITC were administered, either individually or together. Elimination of the transmitting vectors of AAT could cost a total of US$ 1,056,990 in southwest Nigeria. Hence, AAT in West Africa can only be controlled by strategically applying insecticides targeting all transmitting vectors, appropriate use of trypanocides, and institutionalising an appropriate barrier between the domestic and sylvatic areas.
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45

Plamenevskaya, Olga. "Bounds for the Thurston–Bennequin number from Floer homology." Algebraic & Geometric Topology 4, no. 1 (June 10, 2004): 399–406. http://dx.doi.org/10.2140/agt.2004.4.399.

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46

Plamenevskaya, Olga. "A combinatorial description of the Heegaard Floer contact invariant." Algebraic & Geometric Topology 7, no. 3 (September 24, 2007): 1201–9. http://dx.doi.org/10.2140/agt.2007.7.1201.

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47

Baldwin, John A. "Comultiplication in link Floer homology and transversely nonsimple links." Algebraic & Geometric Topology 10, no. 3 (June 25, 2010): 1417–36. http://dx.doi.org/10.2140/agt.2010.10.1417.

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48

McLean, Mark. "Local Floer homology and infinitely many simple Reeb orbits." Algebraic & Geometric Topology 12, no. 4 (September 17, 2012): 1901–23. http://dx.doi.org/10.2140/agt.2012.12.1901.

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49

Hedden, Matthew, and Olga Plamenevskaya. "Dehn surgery, rational open books and knot Floer homology." Algebraic & Geometric Topology 13, no. 3 (May 21, 2013): 1815–56. http://dx.doi.org/10.2140/agt.2013.13.1815.

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50

Altman, Irida. "The sutured Floer polytope and taut depth-one foliations." Algebraic & Geometric Topology 14, no. 4 (August 28, 2014): 1881–923. http://dx.doi.org/10.2140/agt.2014.14.1881.

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