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Buletin Keslingmas
Published by Poltekkes Kemenkes Semarang
ISSN : 0215742X     EISSN : 26558033     DOI : http://dx.doi.org/10.31983/keslingmas
Core Subject : Health, Social,
Environmental Science Health Professions Public Health
Buletin Keslingmas mencakup bidang penelitian bidang sanitasi /penyehatan air, penyehatan udara, penyehatan makanan, penyehatan tanah/ pengelolaan sampah, pengendalian vektor, penyehatan sarana fasilitas, Kesehatan dan Keselamat Kerja, Epidemiologi Kesehatan Lingkungan.
Arjuna Subject : Profesi Kesehatan - Profesi Kesehatan (Lain-Lain)
Articles 516 Documents
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Air Germs Prediction Factors Analysis for Elementary School In Banyumas Regency 2020 Tri Cahyono; Linda Restu Pamuji; Sukma Cantika Graha Putri
Buletin Keslingmas Vol 40, No 1 (2021): BULETIN KESLINGMAS VOL.40 NO.1 TAHUN 2021
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (635.484 KB) | DOI: 10.31983/keslingmas.v40i1.6764

Abstract

Background Schools and formal education can be a bridge for airborne disease to spread caused by air germs. Measurement of air germs result, shows that class 4 (9482 CFU/m3) and class 5(2371 CFU/m3) in SDN 5 Teluk, Purwokerto Selatan district.  The average air gems rate is 1685.33 CFU/m3 in SDN Karangmangu, Baturaden district. The aims of this study was to analyze predictive factors for air germs number in public elementary schools in Banyumas Regency. Methods This research is observational study with cross sectional analytic approach. The independent variables or predictive variables are temperature, humidity, lighting, occupancy density, occupant behavior, cleaning frequency, and ventilation area. The dependent variable is the number of air germs. The sample size was 46 classrooms. The analysis used simple and multiple regression. Research Resulth average temperature (29.9130C), humidity (74.087%), lighting (225.304 lux), occupancy density (2.050 m2 / person), cleaning frequency (2.5 times / day), occupant behavior (53.470% active), ventilation area (9,171%), air germ rate (3425,130 CFU / m3), wind speed (not detected by tools). Prediction of temperature with the number of air germs, Y = 1026.505 + 80.187 X, R = 0.169, p = 0.262. Prediction of humidity with the number of air germs, Y = 2719.038 + 9.531 X, R = 0.083, p = 0.585. Prediction of exposure with air germ count, Y = 3343.684 + 0.361 X, R = 0.059, p = 0.696. Prediction of occupancy density with air germ numbers, Y = 3959.041 + (-260.389) X, R = - 0.386, p = 0.008. Prediction of cleaning frequency with air germ count, Y = 3204.664 + 88.187 X, R = 0.150, p = 0.320. Prediction of occupant behavior with air germ count, Y = 3632.488 + (-3.878) X, R = - 0.160, p = 0.289. Prediction of ventilation area with air germ count, Y = 3965.421 + (-58.911) X, R = -0.427, p = 0.003. Simultaneously predict temperature, humidity, lighting, occupancy density, cleaning frequency, occupant behavior and ventilation area with air germ count, Y = (-1267.495) + (-194.907) (density p = 0.049) + (-42.019) ( Ventilation p = 0.061) + 148.449 (Temperature p = 0.072) + 90.826 (Cleaning p = 0.379) + 12.187 (Humidity p = 0.543) + (-2.205) (Behavior p = 0.561) + 0.111 (Exposure p = 0.913), R = 0.5850. Conclusion ,  predictive factors for occupancy density, ventilation and temperature are significant in predicting the number of airborne germs. Suggestions need to regulate the number of students in each class, the availability standard ventilation, and the addition of an Exhauster.
ENGINEERING APPLICATION OF WASTE TURNING TOOLS TO SUPPORT WASTE MANAGEMENT IN CAMPUS 7 HEALTH POLYTECHNIC OF MINISTRY OF HEALTH SEMARANG Asep Tata Gunawan; Yulianto Yulianto; Bahri Bahri
Buletin Keslingmas Vol 39, No 4 (2020): Edisi Spesial Seminar Internasional Jurusan Kesehatan Lingkungan Poltekkes Keme
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (534.039 KB) | DOI: 10.31983/keslingmas.v39i4.6579

Abstract

Introduction: The government of banyumas district by decree number: 660. 7776/2018 concerning the management of the waste in banyumas district, in which the President's decree strongly recommends the closing of the TPA on January 2, 2019 and urges the management of waste through non-governmental groups (KSM) in trash management 3r (main, reuse and recycling). The application of 3r activities in communities is still hampered largely by the lack of awareness of people sorting waste. The world health ministry of semarang, which has an open land of 2.3 ha (2.3 ha), has an average of 4 m3/ week organic waste. Thus selecting a comprehensive waste management by using a 10-panted run way method, so each week it is used to invert waste from tub one to tub the next. Based on the above description, the formula of the problem in this study is knowing the effectiveness of the waste turning engineering tools in supporting the waste processing process. Methods: Research and Development is a research method that uses to obtain or develop products and test the effectiveness of these products. The turning tool is designed to compare the effectiveness of the waste turning process before and after using the tool. This research was conducted at a waste processing place (composter) at Campus 7 Poltekkes Kemenkes Semarang. The population in this study were all of the campus residents' solid waste generation. The sample of this study was waste in each tub (from tub 1 to 10) compost processing volume of 0.5-4 m3 / week. This study used tables analysis and the average value calculated from the results of sieving the waste. Research and discussion: The design and assembly of a waste turning tool is appropriate and can support the composting process of waste at Campus 7 Purwokerto, Health polytechnic of Ministry of Health Semarang. The volume of waste in basins 1 to 10 is on average around 0.5-4 m3 / week, in each tub per week there is a decrease in waste by an average of about 8-9%, so that starting from basin 1 with a volume of waste 4 m3 / week decreasing in the basin 10 to 0.5 m3 / week. The comparison of manual waste reversal using a machine is as follows:Turning over manual waste takes about 5-7.5 minutes per basin with 4 workers, so it takes 50-75 minutes to reverse 10 basins. Turning the trash with a machine takes about 45-50 seconds withConclusion: A waste turning tool has been proven effective to assist and facilitate the process of waste reversal for the decomposition process in the composting basin at the campus 7 composting place.
TINJAUAN SANITASI RUMAH KOS DAN PERILAKU HIDUP BERSIH SEHAT (PHBS) PENGHUNINYA DI DESA KARANGMANGU KECAMATAN BATURRADEN Riris Sejatiningtyas; Lagiono Lagiono
Buletin Keslingmas Vol 39, No 3 (2020): BULETIN KESLINGMAS VOL.39 NO.3 TAHUN 2020
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (665.657 KB) | DOI: 10.31983/keslingmas.v39i3.6363

Abstract

Manusia membutuhkan tempat tinggal yang dapat dipenuhi sesuai kebutuhan primer, sehingga yang sifatnya sementara dalam pemenuhan kebutuhan tempat tinggal ini dilakukan dengan cara kos atau menyewa rumah. Hasil survey pendahuluan di Desa Karangmangu Kecamatan Baturraden Kabupaten Banyumas terdapat 126 rumah kos yang dihuni oleh mahasiswa maupun dari luar mahasiswa. Penelitian ini bertujuan untuk mendiskripsikan kondisi sanitasi rumah kos serta Perilaku Hidup Bersih Sehat (PHBS) penghuni kos dalam menyehatkan kondisi rumah kos di Desa Karangmangu Kecamatan Baturraden Kabupaten Banyumas. Jenis penelitian yang digunakan adalah penelitian observasi dengan analisis deskriptif, kemudian membandingkan hasil survey dengan standar yang sesuai dengan peraturan yang berlaku yaitu Kepmenkes No. 829/Menkes/SK/VII/1999 tentang Persyaratan Kesehatan Perumahan. Hasil observasi, wawancara dan pengukuran menggunakan checklist, kuesioner dan alat ukur didapatkan hasil bahwa keadaan rumah kos tersebut sangat baik dengan rata-rata prosentase 87% serta perilaku penghuni kos dalam menyehatkan rumah kos 1,6% penghuni kos berperilaku sangat baik, 21,8% penghuni kos berperilaku baik, 40,3% penghuni kos berperilaku cukup baik dan 36,3% penghuni kos berperilaku kurang baik. Pemilik kos hendaknya mengadakan perjanjian dengan penghuni kos apabila akan menyewa atau kos.
APPLICATION OF LARVITRAP AND OVITRAP TO CONTROL Aedes sp. IN DHF ENDEMIC AREAS Arif Widyanto; Aris Santjaka
Buletin Keslingmas Vol 39, No 4 (2020): Edisi Spesial Seminar Internasional Jurusan Kesehatan Lingkungan Poltekkes Keme
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (180.162 KB) | DOI: 10.31983/keslingmas.v39i4.6589

Abstract

Alternative mosquito vector control at this time that is cheap, practical and relatively safe to the environment is needed by developing countries such as Indonesia.One of the methods of controlling Aedes sp without insecticides is the use of larvae traps (larvitrap). The working principle of larvitrap is that the eggs trapped in the tool The incidence rate (IR) of Dengue Hemorrhagic Fever per 100.000 population in Central Java in the last five years is as follows: 2011 amounted to 15,27 in 2012 amounted to 19,29 in 2013 amounted to 45,52 in 2014 amounted to 32,95 and years 2015 amounted to 34,87. Since 2010 DHF has spread to all districts / cities in Central Java. Larvitrap and ovitrap are tools that can be used as traps for Aedes sp. Both of these tools can be used with additional attractants which can serve to attract the attention of Aedes sp. in order to lay eggs on the tool. Larvae that hatch from eggs in the larvitrap eventually cannot become adults and will die. Mosquito eggs trapped in the ovitrap can be destroyed so that they do not develop into adult mosquitoes. The research objective was to determine the effectiveness of using larvitrap and ovitrap as a control tool for Aedes sp (DHF vector).The research method used is experimental research. The research location is in the Banyumas Regency area. Larvitrap made of plastic jars and pralon was painted black and modified using gauze on the top. Ovitrap from plastic cups was painted black and given an ovistrip. Larvitrap and ovitrap were placed in DHF endemic areas. After the larvitrap and ovitrap are taken, the number of trapped Aedes sp and the larvitrap / ovitrap index is calculated. Furthermore, analyzed the effectiveness of using larvitrap and ovitrap as a means of controlling mosquitoes Aedes sp.The results showed that the larvitrap index in the larvitrap installation in Pandak Village was 60%, while in Mersi Village it was 56,7%. The ovitrap index in the ovitrap installation in Pandak Village was 36,7%, while in Mersi Village it was 33,3%. The number of larvae trapped in the larvitrap installation in Pandak Village were 832 larvae, while in Mersi Village there were 985 larvae. The number of eggs trapped in the ovitrap installation in Pandak Village were 518 eggs, while in Mersi Village there were 811 eggs.The conclusion of this research is that larvitrap is more effective to control Aedes sp than ovitrap. The community is advised to use larvitrap as a tool to control the Aedes sp (DHF vector.
EFEKTIVITAS BERBAGAI KONSENTRASI EKSTRAK DAUN PEPAYA (Carica papaya) DAN WAKTU PENGUJIAN TERHADAP JUMLAH HINGGAP NYAMUK Aedes aegypti Aprina Titis Mustika; Arif Widyanto; Tri Cahyono
Buletin Keslingmas Vol 39, No 3 (2020): BULETIN KESLINGMAS VOL.39 NO.3 TAHUN 2020
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (109.929 KB) | DOI: 10.31983/keslingmas.v39i3.4576

Abstract

Demam Berdarah Dengue (DBD) adalah penyakit yang disebabkan oleh virus dengue yang ditularkan melalui gigitan nyamuk Aedes aegypti betina. Pengendalian kimiawi, sebagai salah satu pengendalian yang aman terhadap kesehatan dan ramah lingkungan adalah dengan menggunakan repellent alami. Daun pepaya merupakan tanaman yang mengandung senyawa metabolit sekunder berupa flavonoid, saponin dan tanin yang dapat bermanfaat sebagai repellent untuk mengendalikan nyamuk Aedes aegypti. Tujuan penelitian yaitu dapat diketahuinya efektivitas berbagai konsentrasi ekstrak daun pepaya (Carica papaya) sebagai repellent terhadap nyamuk Aedes aegypti. Jenis penelitian ini adalah true eksperimen (eksperimen murni) dengan desain penelitian post test only control group design. Analisis statistik yang digunakan Anova Faktorial dengan uji lanjut LSD (Least Significant Difference). Hasil penelitian menunjukkan bahwa konsentrasi 20% mempunyai jumlah hinggap 2,5%, dengan daya proteksi 48,9%. Konsentrasi 40% mempunyai jumlah hinggap 2,7%, dengan daya proteksi 37,2%. Konsentrasi 60% mempunyai jumlah hinggap 2,8%, dengan daya proteksi 37,2%. Konsentrasi 80% mempunyai jumlah hinggap 1,9%, dengan daya proteksi 58,6%. Hasil analisis Anova Faktorial didapatkan nilai p = 0,000 α (0,05), yang artinya terdapat perbedaan jumlah nyamuk Aedes aegypti yang hinggap pada tangan probandus pada berbagai konsentrasi ekstrak daun pepaya. Kesimpulan penelitian adalah ekstrak daun pepaya pada konsentrasi 20%, 40%, 60%, dan 80% tidak efektif sebagai repellent (daya tolak) terhadap nyamuk Aedes aegypti karena daya proteksinya 90%. Disarankan agar peneliti lain melakukan penelitian sejenis dengan menggunakan ekstraksi yang berbeda atau dengan menggunakan ekstrak jenis tanaman yang lain.
Gambaran Implementasi Sanitasi lingkungan pada Masyarakat (Studi pada masyarakat di Desa Banra’as Pulau Gili Iyang) Tahun 2020 Laylatul Hasanah; Enza Resdiana
Buletin Keslingmas Vol 40, No 1 (2021): BULETIN KESLINGMAS VOL.40 NO.1 TAHUN 2021
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (653.254 KB) | DOI: 10.31983/keslingmas.v40i1.6766

Abstract

Sanitasi lingkungan merupakan suatu hal yang sering kita dengar yang meliputi mencakup penyediaan air bersih, pembuangan kotoran,  pembuangan sampah. Penelitian ini memiliki tujuan untuk mengetahui Implementasi sanitasi lingkungan pada masyarakat di Desa Banra’as  Gili Iyang di Kabupaten Sumenep tahun 2020. Peneilitian ini adalah penelitian deskriptif kualitatif dengan menggunakan pendekatan wawancara dan Observasi lapangan. Penelitian ini dilakukan di Desa Banra’as Pulau Gili Iyang pada bulan september tahun 2020. Obyek pada penelitian ini adalah Kepala Desa, perangkat Desa dan Masyarakat sebanyak 10 orang sebagai informan. Instrumen penelitian menggunakan lembar wawancara, dan lembar observasi untuk menggambarkan kondisi masyarakat di pulau Gili Iyang.Hasil penelitian menunjukkan bahwa masyarakat di Desa Banra’as belum menerapkan sanitasi dengan baik ditunjukkan oleh hasil wawancara bahwa 50% masyarakat masih menggunakan WC terbuka, 50% masyarakat membuang limbah ke ruang terbuka, 700 KK masih tidak memiliki sumber air bersih sendiri, dan 100% masyarakat di Banra’as membakar limbah rumah tangga (sampah) di lahan terbuka
A COMPARATIVE STUDY ABOUT THE AMOUNT OF MICROPLASTIC IN POLYETHYLENE TEREPHTALATE (PET) DRINKING WATER THAT WAS EXPOSED AND NOT EXPOSED BY SUN AT ENVIRONMENTAL HEALTH LABORATORY OF POLTEKKES KEMENKES SEMARANG AT THE YEAR 2020 Atyaf Umi Faizah; Sugeng Abdullah; Budi Triyantoro; Febri Apwanti Kusumaningtyas
Buletin Keslingmas Vol 39, No 4 (2020): Edisi Spesial Seminar Internasional Jurusan Kesehatan Lingkungan Poltekkes Keme
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (562.776 KB) | DOI: 10.31983/keslingmas.v39i4.6580

Abstract

The majority of bottled water industry uses polyethylene terephthalate (PET) bottles as their packaging. When exposed to direct sunlight, this type of packaging is able to cause new compounds in water. Research at the State University of New York states showed that from 259 bottled water in 9 countries, 242 of them contained microplastics. The purpose of this study is to determine whether there are differences in the amount of microplastic in bottled PET containers that are exposed and not exposed to sunlight. This type of research is pre-experimental using the static group comparison design. There are 2 treatment groups: PET bottled water that is exposed and not exposed to sunlight. The results showed that there were microplastics in PET bottled water exposed and not exposed to sunlight. Samples of bottled PET which exposed to sunlight have microplastic’s number of 175 particles/ liter. Whereas bottled water that was not exposed to sunlight has microplastic’s number of 132,25 particles/ liter. Independent t-test showed that the Sig (2-tailed) value was 0,023. This value less than  = 0,05. So, we can say that there were differences between both of them. The conclusion of the study was that there were differences in the number of microplastics between PET bottled water exposed and not exposed to sunlight. As a form of vigilance, the public is advised to deliver PET bottled water from direct sunlight both for distribution and other type utilization of PET bottles for other purposes such as disinfection of water using sunlight (SODIS).
PENGGUNAAN ALAT REKAYASA PELEBURAN SAMPAH PLASTIK DALAM MENUNJANG PROSES PENGOLAHAN SAMPAH PLASTIK DI KAMPUS 7 POLTEKKES KEMENKES SEMARANG Yulianto Yulianto; Khomsatun Khomsatun
Buletin Keslingmas Vol 39, No 3 (2020): BULETIN KESLINGMAS VOL.39 NO.3 TAHUN 2020
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (944.337 KB) | DOI: 10.31983/keslingmas.v39i3.6364

Abstract

Kampus 7 sebagai institusi pendidikan yang didalamnya terdapat Jurusan Kesehatan Lingkungan dan memiliki sumber daya manusia (SDM) yang mumpuni dalam bidang pengolahan sampah telah merintis unit percontohan komposter dengan metode run way yang bersusun dalam 10 bak. Upaya menangai sampah organik telah terwujud dalam hasil produk pengolahan berupa kompos organik. Seiring berjalannya kegiatan pengomposan, dilakukan kegiatan evaluasi kegiatan. Hasil evaluasi terdapat catatan penting pada proses pengomposan yang dilakukan, seperti proses pembalikan sampah yang terlalu banyak, pemindahan sampah pada bak pengomposan yang banyak, keluhan bau yang menyengat dan risiko tertusuk dari sampah kaleng/ kaca. Semua kondisi tersebut disebabkan karena kegiatan masih dilakukan secara manual oleh tenaga kebersihan. Jenis penelitian ini adalah pra eksperimen dengan rancangan penelitian Post Test Only Design. Penelitian ini dilakukan di lokasi pengolahan sampah (komposter) di Kampus 7 Poltekkes Kemenkes Semarang. Dalam penelitian ini populasi yang dimaksud oleh peneliti adalah seluruh warga kampus 7 dan seluruh timbulan sampah. Sampel penelitian ini adalah sampah yang terdapat pada bak penimbulan, hasil timbulan sampah plastik dengan rata-rata volume sebesar 0,3 m3/ minggu. Analisis data yang digunakan dalam penelitian ini adalah deskriptif cara pengoprasian alat dan peningkatan efektifitas.Desain alat pelebur sampah plastik telah memenuhi kebutuhan dalam mendukung proses pengolahan sampah plastic.Kemampuan alat dalam pengolahan sampah plastik berjalan optimum pada suhu 4000C dengan kapasitas proses 10 Kg/10 menit = 60 Kg/ jam (0,0625 m3/jam). Jadi utk melebur sampah plastik kampus 7 sekitar 0,3 m3/mg dibutuhkan waktu sekitar 4,8 jam. Diperlukan tambahan hitter LPG untuk mempercepat proses pemanasan ruang peleburan. Diperlukan pengisap asap di tempat pengisian bahan baku sampah plastic. Diperlukan system pemasukan bahan baku yg lebih cepat
AIR QUALITY CONTROL MODEL (DUST PARTICLE) WITH SPRAY TOWER Hari Rudijanto I.W; Asep Tata Gunawan; Zaeni Budiono
Buletin Keslingmas Vol 39, No 4 (2020): Edisi Spesial Seminar Internasional Jurusan Kesehatan Lingkungan Poltekkes Keme
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (322.423 KB) | DOI: 10.31983/keslingmas.v39i4.6586

Abstract

Introduction:Air is a gas mixture that consists of several components and is spread throughout the area. Air pollution is the presence in the atmosphere in the form of solid particles, liquid droplets or gaseous components abnormally or in the presence in greater concentrations. There is an easy way to control air pollution by reducing the source of the pollution. However, control is part of air health as with the concept of water treatment. The purpose of this study was to design a device to defray the particles of spray tower dust at a low cost. Methods: This type of research used a pre experiment with the aim of testing the Spray Tower tool in reducing the levels of dust particles from the combustion process with coal briquettes, rice husks, and old tires. The pre test was coal briquettes, rice husk ash, and tires without being sprayed with water. The post test were coal, rice husks, and tires with sprayed water (with the help of 1 nozzle, 2 nozzles and 3 nozzles). The independent variable is the number of nozzles sprayed, the dependent variable includes a decrease in the level of dust particles while the disturbing variable consists of sprayed water discharge, weight of coal briquettes, rice husk ash and tires, air temperature, humidity, height of spraying tower, nozzle diameter. Result and discussion:  of the study the average air temperature was 20.17oC, humidity was 82%. The water discharge for 1 nozzle is 47.76 ml / second, 2 nozzles are 83.75 ml / second and 3 nozzles are 113.76 ml / second. The initial particle content of old tires was 3,020,000 μg / m3, coal briquettes (420,000 μg / m3) and rice husk ash (110,000 μg / m3). The average content of used tire dust particles with one nozzle (1,273.33.33 μg / m3), coal briquettes with one nozzle (361,666.67 μg / m3) and rice husk with one nozzle (23,333.33 μg / m3). The average dust particle content of old tires with two nozzles (16,666.67 μg / m3), coal briquettes with two nozzles (195,000 μg / m3) and rice husks with two husks (18,333.33 μg / m3). The average content of used tire dust particles with three nozzles (13,333.33 μg / m3), coal briquettes with three nozzles (13,333.33 μg / m3) and rice husks with three husks (13,333.33 μg / m3). Conclusion:When compared with Government regulation no. 41 of 1999 is still far from the standard 230 μg / m3 (24 hours), 90 μg / m3 (1 hour). Suggestion It is necessary to conduct other similar studies with a larger sample size, varying air pollution groups, modified models and diameters, controlled gross flow rates. 
THE EFFECTIVENESS OF FLYTRAP WITH ELECTRIC CURRENT IN REDUCING THE DENSITY OF FLIES IN THE MARKET Adnindya Krismahardi; Rizky Aulia Salsabila Al Mukti; Firdaus Wulan Saputri; Cantika Diah Berliana; Raventi Dyah Pramilena
Buletin Keslingmas Vol 39, No 4 (2020): Edisi Spesial Seminar Internasional Jurusan Kesehatan Lingkungan Poltekkes Keme
Publisher : Poltekkes Kemenkes Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (205.617 KB) | DOI: 10.31983/keslingmas.v39i4.6576

Abstract

Vector control needs to be done so that the environment is healthy and free from disease. Flies are one of the vectors for diseases such as diarrhea. Parts of flies that can play a role in disease transmission are legs, wings, body hair, feces and vomit. Flies like habitats with poor sanitation are very attracted to bad smells, piles of wet garbage, vegetables, and scraps of meat, this condition can be described by market conditions. The sweet market in Purwokerto can be a potential place for disease spread. This study aims to determine the effectiveness of fly traps with electric current in reducing fly density in Pasar Manis, West Purwokerto District, Banyumas Regency. This type of research is research and development to develop and test tools and to determine the effectiveness of tools in reducing fly density. Samples were taken non-randomly, namely at TPS, loss of meat and storage of vegetables. The data analysis used was univariate to calculate the effectiveness of using the Flaytrap With Electric Current tool and bivariate analysis using the paired T test to determine differences in fly density before and after treatment. The results of the study obtained a sig value (P-value) of 0.004. The sig value shows that the sig value. (P-Value) α (0.05), so there is a significant difference between the results of measurements of fly density before and after treatment using Flytrap with Electric Current and the efficiency of the tool in reducing fly density by 42.87%. For further research, it is necessary to add attractants with strong odors so that they can attract flies into the trap.

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