Doctoral Thesis
DOI
https://doi.org/10.11606/T.41.2008.tde-13062008-100639
Document
Author
Full name
Alessandro Barghini
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2008
Supervisor
Committee
Neves, Walter Alves (President)
Grimoni, Jose Aquiles Baesso
Natal, Delsio
Romero, Marcelo de Andrade
Vanin, Sergio Antonio
Grimoni, Jose Aquiles Baesso
Natal, Delsio
Romero, Marcelo de Andrade
Vanin, Sergio Antonio
Title in Portuguese
Influência da iluminação artificial sobre a vida silvestre: técnicas para minimizar os impactos, com especial enfoque sobre os insetos
Keywords in Portuguese
Iluminação pública
Insetos
Meio ambiente
Poluição luminosa
Insetos
Meio ambiente
Poluição luminosa
Abstract in Portuguese
O impacto da poluição luminosa sobre o homem e o meio ambiente é fonte de preocupação crescente por parte dos ambientalistas. Ao mesmo tempo a população demanda quantidades crescentes de iluminação artificial para aumentar a segurança e o conforto. Com a finalidade de satisfazer a necessidade humana de iluminação com equipamentos de impacto mínimo sobre o ecossistema, realizamos o teste de diferentes equipamentos comerciais de iluminação com diferentes lâmpadas e utilizando filtros seletivos de comprimento de onda da radiação. A hipótese básica do experimento é que o homem e os insetos apresentam sensibilidade visual diferente por comprimento de onda e que a atração da iluminação artificial sobre os insetos não representa um fototropismo. Os insetos utilizam a radiação artificial como baliza. Na verdade, utilizam o contraste entre radiação de onda curta (UV e violeta) e onda média (azul e verde) para identificar o espaço no qual voar. Selecionando os comprimentos de ondas da iluminação artificial é, portanto, possível minimizar a atração. Durante dois anos foi realizada uma campanha de coleta de insetos utilizando armadilhas luminosas. Quatro tipos de sistema de iluminação foram comparados: lâmpada vapor de mercúrio a alta pressão (Hg); lâmpada a vapor de sódio a alta pressão (Na) sem e com filtro (Hg_f; Na_f) e uma armadilha sem lâmpada. Os resultados do experimento mostram que a armadilha Hg atraiu em média 70 insetos; a armadilha Na 45; a armadilha Hg_f 23 e a armadilha Na_f 16, contra apenas 8 no testemunho. Os resultados confirmam amplamente as hipóteses básicas e oferece um poderoso instrumento para a elaboração de sistemas de iluminação de impacto no que tange os insetos
Title in English
Impact of artificial lighting on the ecosystem
Keywords in English
Ecosystem
Insects
Light pollution
Public lighting
Insects
Light pollution
Public lighting
Abstract in English
The impact of light pollution on man and on the ecosystem is a rising concern among ecologists however, in the same time the human population is demanding more lighting for safety and comfort. In order to satisfy human lighting needs with a minimum impact on the ecosystem, manly on insects, we tested commercial equipments using different types of lights and using selective wavelength filters. The hypothesis underlying the experiment was that humans and insects have a different visual sensibility for wavelength, but insect attraction for lighting is not just a phototropism. Insects use artificial lighting as a landmark for navigation and contrast between short wave (UV and blue) and medium wave (green) radiation is used to screen the space. Selecting wavelength emission of the lighting systems could be possible to minimize insect attraction. In a two years long campaign we undertook insect collection tests using insect traps. We compared four lighting systems: high-pressure mercury bulb (Hg), high-pressure sodium bulb(Na) without and with UV filter (Hg_f; Na_f) and a lighting fixture with an insect trap without bulb as a control. The results of the test have shown that Hg lamp attracted an average of 70 insects by night, Na lamp 45, Hg_f 23, Na_f 16 ad Test lamp 8. The result confirm the proposed hypothesis and can be used in the elaboration of minimum impact lighting fixtures.
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Barghini.pdf (4.47 Mbytes)
Publishing Date
2008-06-16
WARNING: The material described below relates to works resulting from this thesis or dissertation. The contents of these works are the author's responsibility.
- BARGHINI, Alessandro, and DE MEDEIROS, Bruno A.S.. Artificial Lighting as a Vector Attractant and Cause of Disease Diffusion. Environ Health Perspective [online], 2010, vol. 118, n. 11, p. 1503-1506. [cited 2012-09-15]. Available from : <http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2974685/pdf/ehp-118-1503.pdf>
- BARGHINI, Alessandro, and DE MEDEIROS, Bruno A.S.. UV Radiation as an Attractor for Insects. Leukos [online], 2012, vol. 9, n. 1, p. 47-56. [cited 2012-09-15]. Available from : <http://www.ies.org/leukos/Volume9/number1.cfm>
All rights of the thesis/dissertation are from the authors
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CeTI-SC/STI
Digital Library of Theses and Dissertations of USP. Copyright © 2001-2024. All rights reserved.