«Previous Article|Table of Contents|Next Article»

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2024年13

Page:

109-115

Research Field:

Publishing date:

Info

Title:

Effects of Salix integra Cultivation Substrates on Mycelium and Fruiting Body of Auricularia auricula

Author(s):

YANG Yanchao1; FU Jing1; ZHENG Huanchun1; 2; TAN Yurong3

(1.Mudanjiang Branch,Heilongjiang Academy of Forestry，Mudanjiang,Heilongjiang 157010；2.Northeast Edible Fungus Engineering Technology Research Center,National Forestry and Grassland Administration,Mudanjiang,Heilongjiang 157010；3.Heilongjiang Fangzheng Forestry Bureau Co.Ltd.，Harbin,Heilongjiang 150821)

Keywords:

Salix integra sawdust; cultivation of Auricularia auricula; screening formula; yield; economic benefit

PACS:

S 646.6

DOI:

10.11937/bfyy.20240097

Abstract:

The Auricularia auricula ‘Heiwei No.15’ was used as the test material，the different proportion of Salix integra sawdust instead of Quercus mongolica sawdust were used as the culture medium of Auricularia auricula.The effects of different formulas on mycelial growth，fruiting body growth，biological transformation rate，yield and economic benefits of Auricularia auricula were studied,in order to provide reference for the application of Salix integra sawdust.The results showed that the addition of sawdust had no significant effect on mycelium growth rate，but had significant effect on fruiting body growth.The total yield of Auricularia auricula decreased with the increase of Salix integra sawdust，however，the biological conversion rate increased with the increase of Salix integra sawdust.Based on the analysis of the comprehensive economic benefit，the formulas Z1 and Z2 were the most suitable ones for the cultivation of Auricularia auricula.It was feasible to replace Quercus mongolica sawdust by adding no more than 40.0% of Salix integra sawdust.

References:

［1］司梦琦,彭强,许修宏.不同黑木耳菌株在松木屑培养基上菌丝生长和子实体产量研究［J］.东北农业大学学报,2009,40(5):42-45.［2］李黎.中国木耳栽培种质资源的遗传多样性研究［D］.武汉:华中农业大学,2011.［3］李永杰,刘巍巍,郭彦林.蛟河市林业局蒙古栎纯林生长量变化情况研究［J］.农业与技术,2015,35(21):63-64,104.［4］尹江苹,蒋劲东,高瑞清,等.CITES公约木材树种管制及我国进口濒危木材贸易现状［J］.木材工业,2019,33(1):25-28,37.［5］高金辉,王维俭,张厚良,等.四种木质栽培原料对黑木耳生长性状的影响［J］.森林工程,2015,31(1):43-45,96.［6］安美君,任淑文,张跃辉,等.不同比例桑树枝基质对黑木耳产量及品质的影响［J］.北方蚕业,2019,40(4):32-34.［7］王旭彤,邹莉,孙婷婷,等.不同沙棘栽培基质对黑木耳产量和营养成分的影响［J］.食品科技,2017,42(12):107-111.［8］郭明慧,杨杰,江山,等.核桃壳添加量对黑木耳生物性状的影响［J］.中国食用菌,2019,38(5):18-20.［9］徐恒,姜露熙,刘璐萍,等.苹果木屑栽培基质对黑木耳生长及子实体营养成分的影响［J］.食药用菌,2022,30(2):144-147.［10］尹淑丽,梁然,李书生,等.梨木屑基质对平菇子实体氨基酸组成及营养价值的影响［J］.北方园艺,2022(11):112-119.［11］王伟,刘颖,韩光,等.秸秆替代阔叶木屑代料栽培黑木耳的应用研究［J］.北方园艺,2015(8):143-145.［12］马银鹏,周舒扬,马庆芳,等.玉米秸秆基质对黑木耳栽培的影响［J］.北方园艺,2022(19):122-128.［13］张振文,姚方杰,张作达,等.基于木薯茎杆屑栽培的黑木耳品质评价［J］.云南农业大学学报(自然科学版),2022,37(2):330-335.［14］中华人民共和国农业部.食用菌栽培基质质量安全要求:NY/T 1935—2010［S］.北京:中国农业出版社,2010.［15］栾泰龙,郑焕春.食用菌菌包微波灭菌条件的筛选［J］.中国食用菌,2016,35(5):28-33.［16］穆跃.西藏黑木耳成分分析和品质评价［D］.哈尔滨:黑龙江大学,2013.［17］万道印,姜伟阳,李勇,等.伊春林区6种阔叶树木屑栽培黑木耳经济效益分析［J］.中国林业经济,2017(1):53-55.

Memo

Memo:

-

Common functions

Last Update: 2024-07-24