hyphal 中文意思是什麼
hyphal
解釋
菌絲的-
In most basidiomycotes the basidia develop in the basidioma from hyphal tips in the hymenium and may be club - shaped or cylinarical
在大多數擔子菌中,擔子是由著生在子實層菌絲先端的擔子果發育而成的,它可以是球形的也可以是圓柱形的。 -
The fungal biomass consists of hyphal and spore biomass
月,纖維素的總分解率僅為 -
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
支氣管處可見由藍色的菌絲構成的真菌球。當真菌在因結核損害形成的腔洞內植入時,就可能形成真菌球。 -
( am ) fungi exhibit low host specificity and form mutualistic associations with a wide range of host plant species over a wide range of environmental conditions. some characteristics of am fungi, including hyphal growth, distribution and metabolic activity, are closely related to mycorrhizal efficiency and to ecological function of am fungi, and may be influenced by host plant and soil conditions
叢枝菌根共生體由宿主植物和真菌共同組成,菌根真菌的生長、代謝活性、菌絲分佈以及生態適應性等特徵不但與菌根效應、菌根真菌的生態功能密切相關,而且受到宿主植物和土壤條件的影響。 -
Influence of different ph on spore germination and hyphal growth of aschersonia aleyrodis
值對粉虱座殼孢菌孢子萌發和菌絲生長的影響 -
Extraradical hyphal growth was inhibited at high p levels, resulting in decreased p uptake by am fungi
高磷造成am真菌生長和代謝活性下降,是導致菌根效應下降的原因之一。 -
Appressorium ( pl. appressoria ) in many parasitic fungi, a flattened hyphal structure that presses closely against the host epidermis
附著胞:在許多寄生真菌中,一種緊密接觸寄主體表膨大的菌絲結構。 -
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真菌的菌物生長量和土壤中的根外菌絲密度明顯減少,而適當施磷( 50mg ? kg ~ ( - 1 ) )對am真菌的生長有刺激作用。 -
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
接種處理中平行於壟的方向的菌絲密度和活性菌絲密度顯著增加,根內菌絲的alp活性和根外菌絲的sdh活性提高。 -
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
研究中還觀察到,起源相同的2種am真菌對甘薯的效應不同,表明同一am真菌群落中的不同成員間存在生態位的分異。 -
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
結論蜜環菌索侵入天麻營繁莖后,菌絲結、突破菌絲通道的菌絲流,及大型細胞等三層細胞層呈片狀環周包圍了整個營繁莖,菌絲通道是天麻整個生長期營養的補給線。 -
Result after g. elata nutritional stems infected by a. mellea, the rhizomorph of a. mellea separate into several hyphal layers and penetrate hyphal stream which infect into the cells of cortex layer in the direction of outside and infect directly into layer cells in the direction of inside, these hypha can be used the nutrition of g. elata the new corms will be stop growth if cut off the rhizomorph of a. mellea connected with g. elata
結果蜜環菌索侵入天麻營繁莖后,分成多個分枝的菌絲通道,菌絲突破通道形成菌絲流,向外侵入皮層細胞形成菌絲結,向內直接侵入大型細胞被天麻消化作為營養;切斷天麻與菌材連接的蜜環菌索,新生麻就停止生長。 -
Arbuscular mycorrhiza can improve the ability of resisting drought from several aspects : hyphal enhances plants ' chances of absorbing water from soil ; it can improve plants ' phosphorus and another minerals ' nutrition, increase the content of chlorophyll ; observably enhance transpiration and stoma conduction ; reduce the flow of water, permanent languish point, stoma resistance ; change the balance of hormone, promote accumulation plant proline and capability of nitric reductive enzyme
叢枝菌根真菌可以通過以下幾個方面增強植物抗旱性:通過菌絲增加植物對土壤水分的吸收;改善植物的磷營養及其他礦質元素營養;能顯著提高蒸騰速率和氣孔導度;乾旱條件下降低植株葉片水勢、永久凋萎點、葉片飽和虧、氣孔阻力和恢復時間;改變激素平衡。 -
A hypothesis was suggested as following : firstly, the host plants could not synthesize enough carbohydrate to meet their own growth requirements and those of the fungus when the plant in experiment conditions of severe p deficiency. as a result, extraradical hyphal growth and am fungal metabolic activity were inhibited and therefore decline
宿主植物磷營養狀況較差時,菌根真菌生長和代謝活性旺盛;宿主植物磷營養狀況較好時,菌根真菌生長和代謝活性受到抑制,表明宿主植物的磷營養狀況對am真菌的生長和代謝活性具有調控作用。
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