| 1. | The fungal biomass consists of hyphal and spore biomass
月,纤维素的总分解率仅为 |
| 2. | Influence of different ph on spore germination and hyphal growth of aschersonia aleyrodis
值对粉虱座壳孢菌孢子萌发和菌丝生长的影响 |
| 3. | Extraradical hyphal growth was inhibited at high p levels , resulting in decreased p uptake by am fungi
高磷造成am真菌生长和代谢活性下降,是导致菌根效应下降的原因之一。 |
| 4. | Appressorium ( pl . appressoria ) in many parasitic fungi , a flattened hyphal structure that presses closely against the host epidermis
附着胞:在许多寄生真菌中,一种紧密接触寄主体表膨大的菌丝结构。 |
| 5. | In most basidiomycotes the basidia develop in the basidioma from hyphal tips in the hymenium and may be club - shaped or cylinarical
在大多数担子菌中,担子是由着生在子实层菌丝先端的担子果发育而成的,它可以是球形的也可以是圆柱形的。 |
| 6. | A fungus ball composed of blue - staining hyphal elements of aspergillus is seen here in a bronchus . fungus balls may also form when fungi colonize cavitary lesions of tuberculosis
支气管处可见由蓝色的菌丝构成的真菌球。当真菌在因结核损害形成的腔洞内植入时,就可能形成真菌球。 |
| 7. | The growth of extraradical hyphae and hyphal density in soil were decreased significantly at high p level , however the growth of am fungus stimulated by moderate p supplied into soil ( 50 mg - kg - 1 )
高磷水平下, am真菌的菌物生长量和土壤中的根外菌丝密度明显减少,而适当施磷( 50mg ? kg ~ ( - 1 ) )对am真菌的生长有刺激作用。 |
| 8. | The hyphal density paralleling with ridge was much more higher than it in the non - inoculation treatment . a field experiment was carried out to test the effectiveness of the selected isolates with sweet potato as host plant
接种处理中平行于垄的方向的菌丝密度和活性菌丝密度显著增加,根内菌丝的alp活性和根外菌丝的sdh活性提高。 |
| 9. | The metabolism activity and distribution pattern of am fungi were studied in the field . the results showed that the tuber fresh weight was greatly increased with intraradical alkaline phosphatase ( alp ) activity and extraradical hyphal density greatly improved
研究中还观察到,起源相同的2种am真菌对甘薯的效应不同,表明同一am真菌群落中的不同成员间存在生态位的分异。 |
| 10. | Conclusion after the rhizomorph of a . mellea infected g . elata nutritional stems , hyphal coils and the hyphal stream will breakthrough passage cells as well as large cells surround the whole nutritional stems , so the passage cells is the key nutritional resource in the whole growth period of g . elata
结论蜜环菌索侵入天麻营繁茎后,菌丝结、突破菌丝通道的菌丝流,及大型细胞等三层细胞层呈片状环周包围了整个营繁茎,菌丝通道是天麻整个生长期营养的补给线。 |
