Microbial number and biomass in cultivated field soil (15 cm) Microbes Numbers /g Biomass(g m Bacteria 10 160 FU ungl )5 200 Actinomycetes 105-106 160 Algae 104-10 32 Protozoa 10 38
Microbial number and biomass in cultivated field soil(15 cm) Microbes Numbers / g Biomass (g / m3) Bacteria 108 160 Fungi 105 200 Actinomycetes 105 - 106 160 Algae 104 - 105 32 Protozoa 104 38
Main types of soil microorganisms Agrobacterium(胀打菌 alcaligenes(产减杆属 Arthrobacter(杆菌 Bacillus Caulobacter(柄杯菌 Cem0Mas(纤维单胞菌属 Clostridiun(梭菌属 Corynebacterium(棒杆菌属 Flavobacteriun产黄菌属Mcm0 coccus((微球菌属 Mycobacterium(分枝杆菌属| Pseudomonas(假单胞菌属 Staphylcoccus(# kEB)
Agrobacterium(脓杆菌) Alcaligenes(产碱杆菌属) Arthrobacter(节杆菌) Bacillus Caulobacter(柄杆菌) Cellulomonas(纤维单胞菌属) Clostridium(梭菌属) Corynebacterium(棒杆菌属) Flavobacterium(产黄菌属) Micrococcus(微球菌属) Mycobacterium(分枝杆菌属) Pseudomonas(假单胞菌属) Staphylcoccus(葡萄球菌属) Main types of soil microorganisms
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 Hacker谁 This influence is known as the lurg Prstozoers rhizosphere effect In the rhizosphere, microbial populations reach much higher densities in the rhizosphere than in the free soil
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. Rhizosphere Effect ( R/S ratio )
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
(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 Microbial populations in the rhizosphere may benefit the plant by:
10.2 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)
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 ) 10.2 Microbial population interactions