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Chapter 9 Microbial Ecology

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1 Chapter 9 Microbial Ecology
Microbial ecology = ? Environmental microbiology The term microbial ecology is now used in a general way to describe the presence and distributions of microorganisms. Microbial ecology is the the study of the behavior and activities of microorganisms in their natural environments.

2 Environmental microbiology, in comparison, relates primarily to all- over microbial processes that occur in a soil, water or food, as examples. It is not concerned with the particular microenvironment where the microorganisms actually are functioning, but with the broader-scale effects of microbial presence and activities.

3 Chapter 9 Microbial Ecology
9.1 Microorganisms in nature ecosystem 9.2 Microbial population interactions 9.3 Biogeochemical cycles 9.4 Plant-microbe interactions 9.5 Bioremediation

4 9.1 Microorganisms in nature ecosystem
1. Microorganisms and microenvironment 2. Terrestrial Environments 3. Freshwater Environments 4. Marine Environments

5 9.1.1 Microorganisms and microenvironment
populations guilds communities ecosystem

6 In a microbial ecosystem individual cells grow to form populations.
Metabolically related populations constitute groupings called guilds. Sets of guilds conducting complementary physiological processes interact to form microbial communities.

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9 Community 3

10 Microbial communities then interact with communities of macroorganisms to define the entire ecosystem.

11 The distribution of microorganisms in nature ecosystem depends on the resources (nutrients) available and on the growth conditions. Temperature, pH, water availability, light, oxygen of a habitat define the niche for each particular microorganism.

12 Soil particles are not homogeneous in terms of their oxygen content
Soil particles are not homogeneous in terms of their oxygen content. The outer zones of a small soil particle may be fully oxic, whereas the center, only a very short distance away, can remain completely anoxic.

13 A soil aggregate composed of mineral and organic components, showing that localization of soil microbes. Very few microorganisms are found free in the soil solution; most of them occur as microcolonies attached to the soil particles.

14 9.1.2. Terrestrial Environments

15 Proportion of different soil microorganisms in soil

16 Microbial number and biomass in cultivated field soil(15 cm)
Microbes Numbers / g Biomass (g / m3) Bacteria 108 160 Fungi 105 200 Actinomycetes Algae 32 Protozoa 104 38

17 Main types of soil microorganisms
Agrobacterium Alcaligenes Arthrobacter Bacillus Caulobacter Cellulomonas Clostridium Corynebacterium Flavobacterium Micrococcus Mycobacterium Pseudomonas Staphylcoccus

18 Rhizosphere Effect ( R/S ratio )
The rhizosphere is the soil region in close contact with plant roots. Within the rhizosphere, the plant roots exert a direct influence on the soil bacteria. This influence is known as the rhizosphere effect. In the rhizosphere, microbial populations reach much higher densities in the rhizosphere than in the free soil.

19 Microbial populations in the rhizosphere may benefit the plant by:
(1) removing hydrogen sulfide, which is toxic to the plant roots (2) increasing solubilization of mineral nutrients needed by the plant for growth (3) synthesizing vitamins, amino acids, auxins, gibberellins that stimulate plant growth (4) antagonizing potential plant pathogens through competition and the production of antibiotics

20 9.2 Microbial population interactions
1, neutralism (中性关系 ) 2, commensalism (偏利关系 ) 3, synergism (协同关系 ) 4, mutualism (互惠关系 ) 5, competition (竞争关系 ) 6, antagonism (拮 抗关系 ) 7, parasitism (寄生关系 ) 8, predation (捕食关系 )

21 Neutralism, there is no any physiological effect between the populations.

22 Commensalism is a unidirectional relationship between populations in which one population benefits and the other one is unaffected.

23 Synergism indicates that both populations benefit from the relationship but the association is not obligatory. Both populations are capable of surviving independently.

24 Mutualism Symbiosis is an obligatory interrelationship between two populations that benefits both of them. Lichens is composed of a fungus and an alga.

25 Competition occurs when two populations are striving for the same resource of nutrients or the habitat.

26 Antagonism occurs when one population produces a substrate inhibitory to another population.

27 Parasitism, the parasite population is benefited and the host population is harmed.

28 Predation is a widespread phenomenon where the predator engulfs or attacks the prey. The prey can be larger or smaller than the prey, and this normal results in the death of the prey.

29 Classification of population interaction
EFFECT OF INTERACTION NAME OF INTERACTION POPULATION A B Neutralism Commensalism Synergism Mutualism Competition Amensalism Parasitism Predation + - 0 or + 0, No effect; +, positive effect; -, negative effect.

30 9.3 Biogeochemical cycles
1. Carbon cycle 2. Nitrogen cycle 3. Sulfur cycle 4. Iron cycle

31 Carbon cycle

32 Carbon cycle

33 Carbon dioxide is incorporated, or fixed, into organic compounds by such photoautotrophs as cyanobacteria, green plants, algae, and green and purple sulfur bacteria. Chemoheterotrophs consume the organic compounds, animals eat photoautotrophs, especially green plants, and may in turn be eaten by other animals. When the organisms die, the organic compounds of their bodies are deposited in the soil and are decomposed by microorganisms, principally by bacteria and fungi. During this decomposition, carbon dioxide is returned to the atmosphere.

34 Nitrogen cycle

35 Microbial Amino acids Amino acids Proteins from decomposition
dead cells and waste products Microbial decomposition Amino acids Almost all the nitrogen in the soil exists in organic molecules, primarily in proteins. When an organism dies, the process of microbial decomposition results in the hydrolytic breakdown of proteins into amino acids. Amino acids ammonification Ammonia (NH3) The amino groups of amino acids are removed and converted into ammonia (NH3). Ammonification is brought about by numerous bacteria and fungi.

36 Nitrosomonas NH4+ N02- Ammonium ion Nitrite ion Nitrobacter N02- N03-
Nitrification involves the oxidation of the ammonium ion to nitrate Nitrosomonas NH4+ N02- Ammonium ion Nitrite ion Nitrobacter N02- N03- Nitrate ion Nitrite ion The genera Nitrosomonas and Nitrobacter are autotrophic nitrifying bacteria. These organisms obtain energy by oxidizing ammonia or nitrite. In the first stage, Nitrosomonas oxidizes ammonium to nitrites. In the second stage, such organisms as Nitrobacter oxidize nitrites to nitrates

37 Key processes and prokaryotes in the nitrogen cycle
Processes Example organisms Nitrification(NH4+→NO3-) NH4+→NO Nitrosomonas NO2-→NO Nitrobacter Denitrification(NO3-→N2) Bacillus, Pseudomonas N2 Fixation(N2 +8H → NH3 +H2) Free-living Aerobic Azotobacter Cyanobacteria Anaerobic Clostridium,purple green bacteria Symbiotic Rhizobium Bradyrhizobium. Frankia Ammonification(organic-N → NH4+) Many organisms can do this

38 Sulfur cycle

39 Key processes and prokaryotes in the sulfur cycle
Processes Organisms Sulfide/sulfur oxidation(H2S→S0 → SO42-) Aerobic Sulfur chemolithotrophs (Thiobacillus, Beggiatoa, many others) Anaerobic Purple and green phototrophic bacteria, some chemolithotrophs Sulfate reduction(anaerobic)(SO42- → H2S) Desulfovibrio, Desulfobacter Sulfur reduction(anaerobic) (S0 → H2S) Desulfuromonas, many hyperthermophilic Archaea Sulfur disproportionation(S2O32- → H2S + SO42-) Desulfovibrio and others Organic sulfur compound oxidation or reduction(CH3SH→CO2+ H2S) (DMSO→DMS) Desulfurylation(organic-S → H2S) Many organisms can do this

40 9.4 Plant-microbe interactions
1. Lichens and Mycorrhizas 2.The plant environment 3. Root nodule bacteria and symbiosis with legumes

41 Lichens Lichens are leafy or encrusting growths that are widespread in nature and are often found growing on bare rocks, tree trunks, house roofs, and surfaces of bare soils . The lichen plant consists of a symbiosis of two organisms, a fungus and an alga. Lichens consist of a tight association of many fungal cells within which the algal cells are embedded .

42 Mycorrhizas Mycorrhiza literally means "root fungus" and refers to the symbiotic association that exists between plant roots and fungi. Probably the roots of the majority of terrestrial plants are mycorrhizal. There are two classes of mycorrhizae: ectomycorrhizae, in which fungal cells form an extensive sheath around the outside of the root with only little penetration into the root tissue itself, and endomycorrhizae, in which the fungal mycelium is embedded within the root tissue.

43 Mycorrhizas Type of Mycorrhizas: Ectomycorrhiza and Endomycorrhiza
Morphology and Function of Mycorrhizal Infection Mycorrhiza and Plant Nutrition Application Potential of VAM in Agricultural practice and Ecosystem Development and Application of Molecular Probes Construction and Analysis of Genomic Library

44 Ectomycorrhizas Endomycorrhizas Ectendomycorrhizas

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46 Functions of mycorrhiza

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48 Root Nodule Bacteria and Symbiosis with Legumes
Stages in Nodule Formation Biochemistry of Nitrogen Fixation in Nodules Genetics of Nodule Formation: nod Genes Genetic Cooperativity in the Rhizobium-legume Symbiosis Construction and Application of Genetic-engineered Rhizobium

49 Symbiosis of Frankia and Non-leguminous Plant
Morphology and Physiological Characteristic of Frankia Hosts Application Potential

50 8.5 Bioremediation 1. Pollutants 2. Means of bioremediation

51 Pollutants

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54 Concepts 1, Microorganisms are an important part of ecosystems
2, Microbial communities are complex 3, Microbial growth requires nutrients and all of which must be present in usable forms 4, Most microorganisms normally associated with higher organisms and those grown in the lab. tend to be less able to compete and survive in soils and waters 5, Extreme environments restrict the range of microbial types which are able to survive and function

55 Microorganisms in Nature
Distribution of microorganisms In: Soil Water Air Food With plants and animals

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61 Proportion of different soil microorganisms in soil

62 Main types of soil microorganisms
Agrobacterium Alcaligenes Arthrobacter Bacillus Caulobacter Cellulomonas Clostridium Corynebacterium Flavobacterium Micrococcus Mycobacterium Pseudomonas Staphylcoccus

63 Microbial number and biomass in cultivated field soil(15 cm)
Microbes Numbers / gram Biomass(g/m3) Bacteria 108 160 Fungi 105 200 Actinomycetes Algae 32 Protozoa 104 38

64 Rhizosphere Effect R/S
The rhizosphere is the soil region in close contact with plant roots. Within the rhizosphere, the plant roots exert a direct influence on the soil bacteria. This influence is known as the rhizosphere effect. In the rhizosphere, microbial populations reach much higher densities in the rhizosphere than in the free soil.

65 Microbial populations in the rhizosphere may benefit the plant by:
removing hydrogen sulfide, which is toxic to the plant roots increasing solubilization of mineral nutrients needed by the plant for growth (3) synthesizing vitamins, amino acids, auxins, gibberellins that stimulate plant growth (4) antagonizing potential plant pathogens through competition and the production of antibiotics

66 Microorganisms in water and air


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