代料栽培

L（11）杂交株具有产量高、菇形好的优点，生物学效率保持在75%以上，是适合于木屑、棉籽壳代料栽培的优良菌株。

L_ ( 11 ) has the feature of high yield and good shape of fruiting body . The biological efficiency was more than 75 % . It is suitable for the cultivation by using sawdust and cotton hull as matrix materials .

桂南代料栽培香菇试验

The experiment on Lentinus edodes cultivation on substitute in the Southwest Guangxi

以草代料栽培食用菌的营养物质转化与主要调控技术研究进展

Advance in Nutrient Transformation in Edible Fungus Cultivated with Herbage and the Main Regulation Technology

麻杆粉代料栽培香菇的技术研究

Studies on Technique for Cultivating Lentinus edodes with Material of Kenaf Stalk Powder as Substitutes

香菇玉米秸秆代料栽培规模化生产试验

The Experiment of Cultivating Xianggu Mushroom with the Materials of Corn Stalk for Substitutes in Broad Scale

在实验研究的基础上，成功地进行了红麻杆代料栽培香菇的生产试验？试验结果表明，麻杆粉代替木屑栽培香菇是完全可行的，但出菇后期营养不足？

Experiments showed that it was feasible to cultivate Lentinus edodes with kenaf stalk powder instead of sawdust .

灵芝高产优质代料栽培最佳技术模式研究

Studies on the Best Technique Model of Cultivating High Yield and High Quality Ganoderma lucidum with Substitute Materials

近年来随着黑木耳代料栽培的快速发展，对森林资源的消耗与日俱增。

In recent years , the substitute cultivation of A. auricular developed rapidly , so the consuming of forest resources increased with each passing day .

测试了代料栽培黑木耳和段木栽培黑木耳的氨基酸、粗蛋白、粗脂肪、粗纤维、碳水化合物、核酸、微量元素和维生素含量。

The nutritional contents of amino acid , crude protein , crude fat , crude fibre , carbohydrate , nucleic acid , trace elements and vitamins of Auricularia auricula cultivated with sawdust medium and log were tested and analyzed .

结果表明：两种方法栽培茯苓药材的有效成分中的总三萜、多糖及茯苓酸无明显差异，从而为茯苓代料栽培提供了参考依据。

Research result shows : the two methods of cultivation of Poria medicinal active substances total triterpenes , polysaccharide and its main active ingredient Poria mist exist significant difference , which provides a reference for the succedaneous materials cultivated Poria .

茵核人工代料栽培培养料以桦木屑52%、玉米芯26%、麦麸20%、白糖1%、石膏1%、水分65%为最好，生物学效率达30%。

The best compositions for sclerotia substitute cultivation were obtained as birch sawdust 52 % , corncob 26 % , bran 20 % , white sugar 1 % , gypsum 1 % and water 65 % , and the biological efficiency reached 30 % .