| Bahan Kajian | - Pendahuluan dan Pengantar:
Aturan Perkuliahan, SAP, Tujuan Perkuliahan, Pengenalan Biologi dan Mikrobiologi dan Hubungannya dengan Teknik Lingkungan
- Sel dan Molekuler:
Materi penyusun sel: karbohidrat, lemak, protein, asam nukleat dan building blocknya
- Sel dan Molekuler II:
- Materi penyusun sel: karbohidrat, lemak, protein, asam nukleat dan building blocknya
- Struktur Sel dan fungsi sel
- Genetika dan Evolusi:
Siklus Sel, Konsep Mendelian, DNA sebagai material genetic,Teknik biologi molekuler, Hubungan Genetik dengan Evolusi, Mekanisme Evolusi
- Keanekaragaman Hayati:
- Pohon Kehidupan, Klasifikasi makhluk hidup,
- Klasifikasi Prokariotik dan Eukariotik
- Nutrisi dan Faktor Pertumbuhan:
Faktor-faktor yang mempengaruhi dan mengontrol pertumbuhan
- Pertumbuhan Mikroorganisme:
Fase pertumbuhan, kurva tumbuh
- Metabolisme : Enzim dan Katabolisme
Hidrolisis, siklus Krebs, katabolisme aerob, fermentasi dan respirasi, reaksi cahaya/gelap pada autotroph
- Metabolisme : Anabolisme
Biosintesis karbohidrat, asam amino, lipida, nukleotida, asam nukleat dan peptidoglikan
- Ekologi dan Siklus Biogeokimia (mikroorganisme dan ekosistem I)
- Ekologi dan Biosfer, Habitat, Rantai/Jaring Makanan
- Siklus karbon, nitrogen, fosfat dan peranan mikroba
- Bentuk dan Fungsi Tanaman (mikroorganisme dan ekosistem II)
- Struktur, Pertumbuhan dan perkembangan Tanaman
- Tanah dan nutrisi tanaman
- Interaksi tanaman dan mikroorganisme tanah (Fiksasi nitrogen, dll)
- Mikrobiologi Air (mikroorganisme dan ekosistem III)
Mikroba di lingkungan air, self-purification, bakteri indikator, metoda JPT dll
- Bentuk dan Fungsi Hewan (Mikroorganisme dan Ekosistem IV)
Prinsip dasar, vektor dan host, bioakumulasi dan bioindikator (plankton, bentos, ikan, cacing/telur cacing, dll)
- Pemanfaatan Biologi dan Mikrobiologi dalam Rekayasa Lingkungan
- Pemanfaatan mikroorganisme dalam pengolahan limbah cair, limbah padat dan tanah terkontaminasi
- Peran mikrobiologi dalam identifikasi penyakit
| - Introduction and Preface:
Lecture Rules, SAP, Lecture Objectives, Introduction to Biology and Microbiology and Their Relationship with Environmental Engineering
- Cell and Molecular:
Cell building blocks: carbohydrates, fats, proteins, nucleic acids and their building blocks
- Cells and Molecules II:
- Cell building blocks: carbohydrates, fats, proteins, nucleic acids and their building blocks
- Cell Structure and cell function
- Genetics and Evolution:
Cell Cycle, Mendelian Concept, DNA as genetic material, Molecular Biology Techniques, Relationship between Genetics and Evolution, Mechanisms of Evolution
- Biodiversity:
- Tree of Life, Classification of living things,
- Prokaryotic and Eukaryotic Classification
- Nutrition and Growth Factors:
Factors that influence and control growth
- Growth of Microorganisms:
Growth phase, growth curve
- Metabolism: Enzymes and Catabolism
Hydrolysis, Krebs cycle, aerobic catabolism, fermentation and respiration, light/dark reactions in autotrophs
- Metabolism: Anabolism
Biosynthesis of carbohydrates, amino acids, lipids, nucleotides, nucleic acids and peptidoglycan
- Ecology and Biogeochemical Cycles (microorganisms and ecosystems I)
- Ecology and Biosphere, Habitat, Food Chain/Web
- The carbon, nitrogen, phosphate cycle and the role of microbes
- Form and Function of Plants (microorganisms and ecosystems II)
- Structure, Growth and development of Plants
- Soil and plant nutrition
- Interaction of plants and soil microorganisms (Nitrogen fixation, etc.)
- Water Microbiology (microorganisms and ecosystems III)
Microbes in the water environment, self-purification, indicator bacteria, JPT method etc.
- Form and Function of Animals (Microorganisms and Ecosystems IV)
Basic principles, vectors and hosts, bioaccumulation, and bioindicators (plankton, benthos, fish, worms/worm eggs, etc.)
- Use of Biology and Microbiology in Environmental Engineering
- Utilization of microorganisms in processing liquid waste, solid waste and contaminated soil
- The role of microbiology in disease identification
|
|---|