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INDONESIA
Pro-Life
Published by Universitas Kristen Indonesia
ISSN : 23020903     EISSN : 25797557     DOI : 10.33541
Core Subject : Science, Education, Agriculture,
Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Education Immunology & microbiology
Ilmu Biologi merupakan salah satu ilmu yang terus bertumbuh dan menjadi bagian yang penting dalam kehidupan. Ilmu Biologi mencakup kajian teori, penelitian hingga pendidikan Biologi menjadi cakupan ilmiah yang terus diteliti dan dikaji hingga memperoleh manfaat bagi kehidupan. Program studi pendidikan Biologi FKIP-UKI ingin memberikan wadah bagi para peneliti baik di dunia Ilmu Biologi maupun Pendidikan Biologi untuk mempublikasikan hasil kajiannya. Jurnal ini terbentuk pada tahun 2014 dan menjadi referensi bagi para mahasiswa dan peneliti lain dalam melakukan penelitian. Bidang spesifik yang dicakup dalam Jurnal adalah Pendidikan dan Ilmu Biologi. Cakupan/ fokus masalah yang dicakup dalam Jurnal antara lain Pendidikan, Metode Ajar, Tumbuhan, Hewan dan Lingkungan. Jurnal terbit 3 kali dalam satu tahun, yaitu pada Bulan November, Maret dan Juli.
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Articles 9 Documents
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Search results for , issue "Vol. 6 No. 2 (2019): Juli" : 9 Documents clear
KANDUNGAN MINERAL DAN LOGAM BERAT PADA BIOSALT RUMPUT LAUT Padina sp. Nurdiana Riska; Sri Widodo Agung Suedy; Munifatul Izzati
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

Indonesian is an archipelago that has abundant biological resources, one of which is seaweed. Seaweed is widely used by the community as a standard cake chart, agar and herbal medicinal ingredients. One of the potential of seaweed can produce mineral salts (biosalt). One of the seaweed Biosalt which has not been widely used is from Padina sp. Biosalt Padina sp. contains minerals needed by the human body. The purpose of this study was to determine the amount of salt yield obtained from seaweed Padina sp. and knowing the quality of salt from Padina sp. in terms of the content of macromineral (Ca and Mg), Micromineral (Fe, Mn and Zn) and heavy metals (Cu and Pb). Sampling of Padina sp. Seaweed conducted in Teluk Awur, Jepara. Extraction biosalt Padina sp. carried out at BSF Plant Laboratory, Department of Biology, FSM, UNDIP. Testing with the ICP-OES tool was carried out in the Physical Chemistry laboratory of FMIPA UNNES. Data analysis was descriptive qualitative by comparing the salt content of "biosalt" seaweed with table salt (control). The results showed that the total yield of seaweed biosalt was 9.44 gr / 100 gr or 9.44%. As for that the mineral content of Ca, Mg, Fe, Mn, and Zn in biosalt Padina sp. higher than in table salt. On the other hand, heavy metals Cu and Pb in biosalt Padina sp. lower than table salt. This shows that salt obtained from seaweed Padina sp. safe for humans because they have high mineral content and heavy metal levels which are still below the threshold (<2.0 mg / gr) Keywords: minerals, heavy metals, seaweed, biosalt.
PENGAMATAN KADAR LOGAM BERAT MERKURI (Hg) DAN TEMBAGA (Cu) PADA DAGING IKAN DI TELUK KAO, HALMAHERA Edward Edward
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

Fish is sources of protein, minerals, vitamins, and polyunsaturated omega-3 fatty acids, which are considered beneficial for health. The purpose of this research was to analysize the levels of mercury (Hg) and copper (Cu) in several species of fish that live in Kao Bay, Halmahera. This research were carried out in November 2015. Fishes samples analyzed were suo fish (Sphyraena jello), tatameri (Gazza minuta), gaca (Lutjanus argentimaculatus), totodi (Synodus foetens) bubara (Caranx sp), ngafi (Stolephorus indicus) dan biji nangka (Upeneus vittatus). All samples was analyzed using Atomic Absorption Spectrophotometer (AAS). The results showed that the Hg levels is still in accordance with the safe treshold value set by the Indonesian National Standard (SNI) (2009), while Cu has passes the criteria set by the that SNI for seafood. Keywords: Teluk Kao, fishes, heavy metals of Hg and Cu
BOTANI DAN BIOAKTIVITAS PULAI (Alstonia scholaris) Dr. Marina Silalahi, M.Si
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

Pulai or Alstonia scholaris (AS) is a species belonging Apocynaceae, which is used as medicine. The aim of thearticleto manifest the use and bioactivity of the AS. The writing of the article is based literature study of various articles or research that has been there before to explain AS bioactivity. The genera Alstonia was described by Robert Brown in 1810 and was used as a tribute to and respect for Charles Alston, a Scottish Doctor and professor of Botany at the University of Edinburgh. The AS is a medium to large-sized tree with plants, has fragrant flowers so that it is associated with magic causing it to be called a devil tree. Ethnobotany AS is used to treat digestive tract disorders, malaria, asthma, malaria, fever, dysentery, diarrhea, epilepsy, skin diseases, and snake bites. The use of the AS as a drug is related to the content of secondary metabolites, especially from compounds of the alkaloid group. The AS bioactivity as an anti-diabetes mellitus, anti-cancer, anti-inflammatory, anti-microbial and antioxidant drug. The AS bioactivity as an anti-cancer can be used as an alternative medicine in healing cancer, but further research is needed to develop it as a standardized herbal medicine. Keywords: Alstonia scholaris, anti-cancer, diabetes mellitus.
PENEGAKAN DIAGNOSIS DAN PENANGGULANGAN CERVICALYS HERNIATED NUCLEUS PULPOSUS Bernadetha Nadeak
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

This paper examines the exact and precise diagnosis of the Cervicalys Herniatted Nucleus Pulposus (CHNP). CHNP comes from the displacement of the nucleus pulposus in the intervertebral disc at the cervical level, which can cause direct compression of the spinal cord or nerve root suppression. The posisition of the body which is less ergonomic during daily activities as a result of a misposition in a long time so as to cause high levels of stress on the muscles and tissues supporting the body in the long run and asymmetrical loading on intradiscal (disc migration). This condition causes the transfer of the nucleus pulposus to the front of the burden received, if this lasts a long time it can cause protrusion of the disc backwards so that it can directly irritate pain-sensitive posterior longitudinal ligaments. The purpose of this study is to find out how the precise and exact diagnosis of CHNP is. The research method used is library research, by referring to books, journals, articles relating to topics discussed as data sources to answer research question. The results of this study is; there are several ways that can be done in CHNP diagnosing such as: a) laboratory examination; b) imaging; c) electrodiagnostic, d) somatosensory evoked potentials. While the prevention of CHNP can be done in several ways such as: a) physical therapy; b) cervical traction; c) pharmacology; d) surgery; e) prevention; f) biomechanics; g) pathophysiology, and; h) decreased structure of the intervertebral disc. It can be concluded that in the accurate and precise enforcement and handling of CHNP, it is recommended to do the several methods mentioned above. Keywords: cervicalys herniated nucleus pulposus, head and neck position
EKSPLORASI JENIS ROTAN DI KABUPATEN TIMOR TENGAH SELATAN, PROVINSI NUSA TENGGARA TIMUR Titi Kalima; Jamaludin Malik; Sunarto Sunarto
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

South-Central Timor District with the area of ​​3,955.36 km2 holds a lot of diversity of non-timber forest products, including rattan plants. Rattan is widely spread in forest area which is its natural habitat. The increasing of both legal and illegal forest exploitation and land conversion resulted in the habitat damage. Some communities around the forest have used rattan as raw material for plaits, ropes and household needs, while the rattan has not been inventoried and cultivated properly. The purpose of this study is to determine the diversity of rattan species and utilization by the people in the District of South-Central Timor, East Nusa Tenggara Province. Field research activities were carried out using the exploration method in the Kualeui forest area, namely the villages of Oelalali, Sub-District of Kualin and Lolli Village, Sub-District of Pollen. Rattan data collection was recorded in passport data followed by data documentation. Exploration results show that the forests of South-Central Timor Regency found three species of rattan consisting of two genera, namely Calamus and Daemonorops. In this district, rattan grows at the altitude of 100-1500 above sea level. The most commonly used rattan species by communities around the forest are Calamus timorensis Beccari and C. toli-toliensis Beccari ex Heyne, while Daemonorops melanochaetes Blume is not utilized. Therefore there is a need for further development of the utilised rattan. Keywords: Exploration, Rattan, South-Central Timor District, Utilization.
KARAKTERISASI VARIASI MORFOLOGI Youngia japonica (L.) DC. (ASTERACEAE) DARI PULAU SUMATERA, INDONESIA Anisatu Z. Wakhidah
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

Youngia japonica (L.) DC. is perennial herb with yellow hermaphrodite flower. Based on herbarium collection from Herbarium Naturalis Biodiversity Centre (L), a variety was discovered from Japan in this species which named as Youngia japonica Benth var. acutiloba Miq. There are posibilites about discovering variety in herbarium collection of Youngia japonica (L.) DC. from Sumatera Island wich owned by Herbarium Bogoriense (BO). Fenetic analysis revealed that morphological character observation resulted 4 group with difference at some morphological characters in Youngia japonica (L.) DC herbarium. Those character were height of habit, stem surface, stipule, and leaf margin. Due to those character got great influenced by environment factor, those character not yet satisfy to classify Youngia japonica (L.) DC. in taxon infra species. Beside it, there is an assumption that Youngia japonica (L.) DC. has a large variety morphology which because of its adaptation ability. Keywords : herbarium, Sumatera, variety, Youngia japonica,
KARAKTERISTIK STOMATA BERDASARKAN ESTIMASI WAKTU DAN PERBEDAAN INTENSITAS CAHAYA PADA DAUN Hibiscus tiliaceus Linn. DI PANGANDARAN, JAWA BARAT Tia Setiawati; Inneke Febrihardianti Syamsi
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

Hibiscus tiliaceus L. is useful as shade plants, medicinal, and wood carvings. Optimizing utilization of plants depends on environmental conditions, one of which is sunlight that affects stomatal. Each plant has a different response to the stress of sunlight such as the ability to open and close the stomatal. This study aims to determine the differences in the stomatal characteristics of Hibiscus tiliaceus’s leaves based on time estimation and difference of light intensity were determined using the replica method in Pananjung Pangandaran Nature Reserve, West Java. The results showed that the lowest and highest average length and width of porous stomatal, the number of open and closed stomatal, and the density of stomatal in shaded areas were 6 µm (morning and noon), 2.77 µm (afternoon), 6, respectively. 93 µm (morning), 3.83 µm (afternoon), 43 cells, 8 cells, and 259.86 cells / mm2, whereas in the non-shaded area 5.5 µm (morning), 2.97 µm (afternoon ), 7 µm (day and evening), 4.1 µm (afternoon), 18 cells, 26 cells, and 224.20 cells / mm2. The opening of stomatal in the non-shaded area is greater than the shaded. The estimated time, difference light intensity, and physical factors influence the parameters of the study. Keywords: Hibiscus tiliaceus L., light intensity, stomatal characteristics, time estimation.
TOKSISITAS EKSTRAK EKSTRAKSI SERBUK GERGAJI KAYU SENGON LAUT (Albizia falcataria L. Forberg) TERHADAP MORTALITAS Hypothenemus hampei Ferr. (COLEOPTERA: SCOLITYDAE) Paramita Pratiwi; Rudju Winarsa; Purwatiningsih Purwatiningsih
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

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Ten of extract tested to insect by using contact method. Ten of extract tested to insect by using contact method. Ten of extract tested to insect by using contact method. Ten of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. 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Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 of H. hampei were used for each concentration and replicated 10 times. Mortality insects was recorded 24, 48 and 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. 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The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) te and 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. 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The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) te and 72 hours. The data was analyzed using GLM (General Linear Model) teand 72 hours. The data was analyzed using GLM (General Linear Model) te st and st and st and st and st and st and Duncan DuncanDuncanDuncanDuncan test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence test at 95% confidence level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of level. Results showed that methanol extract of SengonSengon SengonSengonSengon wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. wood sawdust had significant effect on the mortality of H. hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of hampei after 72 hours. It can be concluded that methanol extract of SengonSengon SengonSengonSengon wood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase thewood sawdust could increase the wood sawdust could increase the wood sawdust could increase thewood sawdust could increase the wood sawdust could increase thewood sawdust could increase the wood sawdust could increase the wood sawdust could increase the wood sawdust could increase thewood sawdust could increase the wood sawdust could increase the wood sawdust could increase the mortality of H. hampei. mortality of H. hampei.mortality of H. hampei. mortality of H. hampei. mortality of H. hampei. mortality of H. hampei.mortality of H. hampei.mortality of H. hampei.mortality of H. hampei.mortality of H. hampei. mortality of H. hampei.Keywords: Hipotenemus hampei, mortality, Sengon wood sawdust, toxcicity.
STRUKTUR MIKROANATOMI GINJAL MENCIT (Mus Musculus L.) BETINA SETELAH PAPARAN EKSTRAK ETANOL DAUN MIMBA (Azadirachta indica A. Juss) Elsa Billah Septiva; Agung Janika Sitasiwi; Sri Isdadiyanto
Jurnal Pro-Life Vol. 6 No. 2 (2019): Juli
Publisher : Program Studi Pendidikan Biologi Fakultas Keguruan dan Ilmu Pendidikan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33541/jpvol6Iss2pp102

Abstract

Neem leaves (Azadirachta indica A. Juss.) contain organic compounds such as alkaloids, steroids, flavonoids, triterpenoids, saponins and tannins which have any potency as traditional medicinal. This study aimed to examine the ethanolic extract of Neem leaves on kidney microanatomy in mice (Mus musculus L.). Completely Random Design consists of 4 treatments, 5 replications, namely K (aquadest), P1, P2 and P3 (Treated by dosages 8.4; 11.2 and 14 mg/kg BB/day). The treatments were given orally with volume 0.2 mL for 21 days. Kidney organ was isolated, weighed and made by histological processed with a 5 μm incision thickness using the paraffin method with Hematoxylin-Eosin staining. Observation of preparations were carried out to calculate glomerular diameter, Bowman’s capsule diameter and Bowman’s space diameter. The data were analyzed using ANOVA test at 95% confidence level and continued with DMRT test. The analysis results showed that there was significant affect (p<0.05) on exposure ethanolic extract of Neem leaves to the glomerular and Bowman's capsule diameter but didn’t show significantly affect (p>0.05) to the Bowman's space diameter, changes in kidney weight and drinking consumption of mice. It could be concluded that the exposure of ethanolic extract of Neem leaves in a period of 21 days is still safe to use as traditional alternative medicine. Keywords: Glomerular diameter, kidney weight, Neem leaves

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