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User:AlysEder/Biomimetics/Bibliography

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Bibliography

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This is where you will compile the bibliography for your Wikipedia assignment. Add the name and/or notes about what each source covers, then use the "Cite" button to generate the citation for that source.

  • Luke, Learie. 2007. Identity and secession in the Caribbean: Tobago versus Trinidad, 1889–1980.[1]
    • This is a book published by a university press, so it should be a reliable source. It also covers the topic in some depth, so it's helpful in establishing notability.
  • Galeano, Gloria; Bernal, Rodrigo (2013-11-08). "Sabinaria , a new genus of palms (Cryosophileae, Coryphoideae, Arecaceae) from the Colombia-Panama border". Phytotaxa.[2]
    • This is a peer-reviewed scientific journal, so it should be a reliable source. It covers the topic in some depth, so it's helpful in establishing notability.
  • Baker, William J.; Dransfield, John (2016). "Beyond Genera Palmarum: progress and prospects in palm systematics". Botanical Journal of the Linnean Society.[3]
    • This is a peer-reviewed scientific journal, so it should be a reliable source for a specific fact. Since it only dedicates a few sentences to the topic, it can't be used to establish notability.

ARTSTOR

Econcrete. Econcrete Seawall Tiles. Retrieved from https://library-artstor-org.libproxy.temple.edu/asset/24610912

-       “ECOncrete® produces a range of modular sea wall elements which functionally integrate into coastal and marine infrastructure. The unique properties of ECOncrete® elements support the growth of targeted marine organisms through design alteration and chemical modification of the concrete mix. These alterations do not affect the structural and functional properties of the sea wall, while adding strength, reducing maintenance, and increasing life span of the sea wall as biogenic material accumulates providing bioprotection. The Sea Walls’ surface textures can be modified according to the project’s design theme bringing the environmental considerations into account. ECOncrete®’s Sea Walls design can be modified to accommodate various anchoring methods used in the industry.”


Hempwood. Hempwood Block. Retrieved from https://library-artstor-org.libproxy.temple.edu/asset/28596544

-       HempWood® Lumber is an American innovation, NO ADDED FORMALDEHYDE and suitable replacement for traditional solid hardwoods such as white oak in most interior non-structural products and processes. We invite craftsman and downstream manufacturers to develop their products in parallel to ours and share their results on our social media via #hempwood. Some current HempWood® applications include- benches, shelves, cutting boards, trim, window frames, dressers, tables, and more! All hemp growth and material production is conducted in the United States of America Our hemp is grown using sustainable methods, which helps eliminate deforestation. HempWood can be used for anything that wood typically is, like construction material. HempWood is made via a patented process that utilizes bio-mimicry to transform hemp fibers and protein based bonding agents into a viable substitute for anything solid oak can be used for. HempWood® is an engineered wood product. Hemp fibers are broken down into individual strands and glued together using a combination of soy-protein and cross linking binders, heat and pressure. The timber is cut to achieve the appearance, width and thickness desired. For larger order quantities, cutting sizes can be customized to help eliminate waste for the client’s operation.


Jaeger. Cleartec Biotextil. Retrieved from https://library-artstor-org.libproxy.temple.edu/asset/28217948

-       Cleartec® Biotextil Energy-efficient wastewater treatment with high-performance textile fixed bed - for municipal and industrial wastewater Biological wastewater treatment with IFAS technology Cleartec® Biotextil is a textile growth media for microorganisms and is installed to upgrade or improve municipal and industrial wastewater treatment plants. Furthermore it serves as space-saving biological treatment or pre-treatment of industrial wastewater on site. High performance affords a very compact design for new constructions of wastewater treatment plants. Its flexibility, highly structured, large active surface and high resistance against wastewater-specific chemicals make it to an excellent material for supporting the biological activity in wastewater treatment plants. Cleartec® Module Biological wastewater treatment with combined system Biotextile is applied in the biological area, mainly in aerated basins. The wastewater should be pretreated mechanically. A fine rack with maximum 6 mm rod distance is recommended. Furthermore, a grit chamber, grease trap and settling tank should exist. Mostly a usual secondary clarifier is installed downstream. Normally the system Cleartec® Biotextil is operated as a combined system. This means that the suspended biomass, as at activated sludge treatment, as well as the biomass fixed on the biotextile, so-called sessile biomass, contributes to the cleaning capacity. Cleartec® Module The advantages at a glance The system Cleartec® Biotextil features a range of advantages in comparison with other systems. The essentials are briefly explained in the following: Textiles is treated with antibacterial properties filter bacteria from the water. Structured growth media with large surfaceDSC01028 Steady discharge value at very good BOD and nitrogen elimination Outstanding energy efficiency due to optimized flow No clogging due to flexible structure Possibility to check media and diffusers due to liftable supporting frames Acting jointly: suspended and sessile biomass Increase of performance at existing plants Relief of the secondary clarifier Reduction of investment and operation costs


Columbia Forest Products.

- PureBond® Veneer Core Hardwood Plywood - Maple. Retrieved from https://library-artstor-org.libproxy.temple.edu/asset/SS37466_37466_42959996


PureBond® Veneer Core Hardwood Plywood – Maple

-       This hardwood plywood is formaldehyde-free using soy-based adhesives that were inspired by biomimicry. The soy-based adhesive was developed by studying proteins secreted by mussels known as byssal threads which provide superior strength and extraordinary flexibility. The soy proteins were modified to perform similarly to byssal threads.


Ingram, Colin. Bacterial Colored Coating. Retrieved from https://library-artstor-org.libproxy.temple.edu/asset/SS37466_37466_43784215

-       Hoekmine views microorganisms as complex structured communities. Complex microbial structures can be used to derive new optical materials and living biosensors.reation of new structural colours to create new optical materials via biomimetics/nanofabrication by the genetic manipulation of bacterial.


PROQUEST

Biomimetics : A Molecular Perspective

-       Jelinek, R. (2013). Biomimetics : A molecular perspective. De Gruyter, Inc..


Dr. Pascal Magne on Biomimetic Principles

Presentation on the importance of applying , understanding and respecting biomimetic principles for dentists.

-       Dr. Pascal Magne on Biomimetic Principles. . (2010, Jan 01).[Video/DVD] Global Institute for Dental Education. http://libproxy.temple.edu/login?url=https://www.proquest.com/audio-video-works/dr-pascal-magne-on-biomimetic-principles/docview/2451812662/se-2?accountid=14270


Biomimetics for Architecture : Learning from Nature

-       Knippers, J., Schmid, U., & Speck, T. (Eds.). (2019). Biomimetics for architecture : Learning from nature. Walter de Gruyter GmbH.


Sensing in Nature: using biomimetics for design of sensors

-       Lenau, T., Cheong, H., & Li, S. (2008). Sensing in nature: using biomimetics for design of sensors. Sensor Review, 28(4), 311-316. http://dx.doi.org/10.1108/02602280810902604


BIOMIMETICS design by nature

-       Mueller, T. (2008, 04). BIOMIMETICS design by nature. National Geographic, 213, 68-70,73-75,77,79,81-84,86,88,90. http://libproxy.temple.edu/login?url=https://www.proquest.com/magazines/biomimetics-design-nature/docview/200961348/se-2?accountid=14270


Access Science

Bioorganic chemistry

-       Chenault, H. K. (2019). Bioorganic chemistry. AccessScience. Retrieved February 18, 2022, from https://doi-org.libproxy.temple.edu/10.1036/1097-8542.757238


Relations among structure, properties, and function in biological materials

-       https://doi-org.libproxy.temple.edu/10.1036/1097-8542.YB119250



Avery Index to Architectural Periodicals


Environmental Ethics and Biomimetic Ethics: Nature as Object of Ethics and Nature as Source of Ethics

- Dicks, H. (2017). Environmental Ethics and Biomimetic Ethics: Nature as Object of Ethics and Nature as Source of Ethics. Journal of Agricultural and Environmental Ethics, 30(2), 255-274. http://dx.doi.org/10.1007/s10806-017-9667-6


Applied innovation: Technological experiments on biomimetic façade systems and solar panels

-       Petriccione, L., Fulchir, F., & Chinellato, F. (2021). Applied innovation: Technological experiments on biomimetic façade systems and solar panels. Techne, , 82-86. http://libproxy.temple.edu/login?url=https://www.proquest.com/scholarly-journals/applied-innovation-technological-experiments-on/docview/2550550497/se-2


Experimental Design and Evaluation of a Moisture Responsive Sports Bra

-       Adriana, G., Fatma, B., & Sanders, E. A. (2020). Experimental design and evaluation of a moisture responsive sports bra. Fashion and Textiles, 7(1)http://dx.doi.org/10.1186/s40691-020-00209-6


Circular Product Design. A Multiple Loops Life Cycle Design Approach for the Circular Economy

-       Mestre, A., & Cooper, T. (2017). Circular Product Design. A Multiple Loops Life Cycle Design Approach for the Circular Economy. The Design Journal, 20, 1620. http://dx.doi.org/10.1080/14606925.2017.1352686


THE BIOMIMICRY REVOLUTION IN ENVIRONMENTAL EPISTEMOLOGY

-       Dicks, H. (2019). THE BIOMIMICRY REVOLUTION IN ENVIRONMENTAL EPISTEMOLOGY. Ethics and the Environment, 24(2), 43-66. http://dx.doi.org/10.2979/ethicsenviro.24.2.03


Biomimicry in Agriculture: Is the Ecological System-Design Model the Future Agricultural Paradigm?

-       Stojanovic, M. (2019). Biomimicry in Agriculture: Is the Ecological System-Design Model the Future Agricultural Paradigm? Journal of Agricultural and Environmental Ethics, 32(5-6), 789-804. http://dx.doi.org/10.1007/s10806-017-9702-7


BIOMIMETICALLY CORRECT

-       Eilouti, B. (2010). BIOMIMETICALLY CORRECT. ArchNet-IJAR : International Journal of Architectural Research, 4(2), 429-442. http://libproxy.temple.edu/login?url=https://www.proquest.com/scholarly-journals/biomimetically-correct/docview/862363942/se-2?accountid=14270


SUSTAINABLE SPACES WITH PSYCHOLOGICAL CONNOTATION: HISTORICAL ARCHITECTURE AS REFERENCE BOOK FOR BIOMIMETIC MODELS WITH BIOPHILIC QUALITIES

-       Ramzy, N. S. (2015). SUSTAINABLE SPACES WITH PSYCHOLOGICAL CONNOTATION:


HISTORICAL ARCHITECTURE AS REFERENCE BOOK FOR BIOMIMETIC MODELS WITH BIOPHILIC QUALITIES.

- ArchNet-IJAR : International Journal of Architectural Research, 9(2), 248-267.  http://libproxy.temple.edu/login?url=https://www.proquest.com/scholarly-journals/sustainable-spaces-with-psychological-connotation/docview/1700278011/se-2?accountid=14270


On the Playground: Enabling Creativity and Risk Taking; What Would Nature Do? Biomimicry and Problem‐Solving

- Bailey, B., Terry, F. S., Lindstrom, J., & Vinton, B. (2019). On the Playground: Enabling Creativity and Risk Taking; What Would Nature Do? Biomimicry and Problem‐Solving. Design Management Review, 30(1), 16-25. http://dx.doi.org/10.1111/drev.12157

References

[edit]
  1. ^ Luke, Learie B. (2007). Identity and secession in the Caribbean: Tobago versus Trinidad, 1889–1980. Kingston, Jamaica: University of the West Indies Press. ISBN 978-9766401993. OCLC 646844096.
  2. ^ Galeano, Gloria; Bernal, Rodrigo (2013-11-08). "Sabinaria , a new genus of palms (Cryosophileae, Coryphoideae, Arecaceae) from the Colombia-Panama border". Phytotaxa. 144 (2): 27–44. doi:10.11646/phytotaxa.144.2.1. ISSN 1179-3163.
  3. ^ Baker, William J.; Dransfield, John (2016). "Beyond Genera Palmarum : progress and prospects in palm systematics". Botanical Journal of the Linnean Society. 182 (2): 207–233. doi:10.1111/boj.12401.