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一种利用稀释平板技术评估土壤微生物对致病尖孢镰刀菌抑制作用的方法。

An Evaluation Method for Suppression of Pathogenic Fusarium oxysporum by Soil Microorganisms Using the Dilution Plate Technique.

作者信息

Mitsuboshi Masahiro, Kioka Yuuzou, Noguchi Katsunori, Asakawa Susumu

机构信息

Tsukuba Research Institute, Katakura & Co-op Agri Corporation.

Graduate School of Bioagricultural Sciences, Nagoya University.

出版信息

Microbes Environ. 2017;32(2):184. doi: 10.1264/jsme2.ME16052e.

DOI:10.1264/jsme2.ME16052e
PMID:28652549
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5478543/
Abstract

Volume 31, No. 3, Page 307-313, 2016Page 310, Legend for Fig. 4 IncorrectFig. 4. Growth degree of Fusarium oxysporum f. sp. spinaciae for organic fertilizers at each dilution based on an estimation of the ellipse area (A) and extension length (B) of the colony. Cont, compound inorganic fertilizer; SBM, steamed bone meal; CDC, cow dung compost; MI, microbial inoculant. Values show mean of medians of degrees with SE (n=3). The ellipse area and extension length for control plates were 4,475 mm and 36.5 mm, respectively. CorrectFig. 4. Growth degree of Fusarium oxysporum f. sp. spinaciae for organic fertilizers at each dilution based on an estimation of the ellipse area (A) and extension length (B) of the colony. Cont, compound inorganic fertilizer; SBM, steamed bone meal; CDC, cow dung compost; MI, microbial inoculant. Values show mean of growth degrees with SE (n=3). The ellipse area and extension length for control plates were 4,475 mm and 36.5 mm, respectively. Page 311, Legend for Fig. 5 IncorrectFig. 5. Growth degree of Fusarium oxysporum f. sp. spinaciae for soil applied with organic fertilizers at each dilution based on an estimation of the ellipse area (A) and extension length (B) of the colony. Cont, compound inorganic fertilizer; SBM, steamed bone meal; CDC, cow dung compost; MI, microbial inoculant. Values show the mean of medians of degrees with SE (n=3). The ellipse area and extension length for control plates were 5,473 mm and 40.5 mm, respectively. CorrectFig. 5. Growth degree of Fusarium oxysporum f. sp. spinaciae for soil applied with organic fertilizers at each dilution based on an estimation of the ellipse area (A) and extension length (B) of the colony. Cont, compound inorganic fertilizer; SBM, steamed bone meal; CDC, cow dung compost; MI, microbial inoculant. Values show the mean of growth degrees with SE (n=3). The ellipse area and extension length for control plates were 5,473 mm and 40.5 mm, respectively. Page 312, Legend for Fig. 7 IncorrectFig. 7. Growth degree of Fusarium oxysporum f. sp. spinaciae at each dilution based on an estimation of the ellipse area (A) and extension length (B) of the colony. Cont, compound inorganic fertilizer; SBM, steamed bone meal; CDC, cow dung compost; MI2, microbial inoculant applied with 2,000 kg ha; MI10, microbial inoculant applied with 10,000 kg ha. Values show the mean of medians of degrees with SE (n=3). The ellipse area and extension length for control plates were 3,404 mm and 29.7 mm, respectively. CorrectFig. 7. Growth degree of Fusarium oxysporum f. sp. spinaciae at each dilution based on an estimation of the ellipse area (A) and extension length (B) of the colony. Cont, compound inorganic fertilizer; SBM, steamed bone meal; CDC, cow dung compost; MI2, microbial inoculant applied with 2,000 kg ha; MI10, microbial inoculant applied with 10,000 kg ha. Values show the mean of growth degrees with SE (n=3). The ellipse area and extension length for control plates were 3,404 mm and 29.7 mm, respectively. The authors would like to apologize for these corrections and any inconvenience caused.

摘要

第31卷,第3期,第307 - 313页,2016年

第310页,图4图例 错误

图4. 基于对尖孢镰刀菌菠菜专化型菌落椭圆面积(A)和延伸长度(B)的估计,不同稀释度有机肥条件下尖孢镰刀菌菠菜专化型的生长程度。Cont,复合无机肥;SBM,蒸骨粉;CDC,牛粪堆肥;MI,微生物接种剂。数值表示生长程度中位数的平均值及标准误(n = 3)。对照平板的椭圆面积和延伸长度分别为4475平方毫米和36.5毫米。

正确

图4. 基于对尖孢镰刀菌菠菜专化型菌落椭圆面积(A)和延伸长度(B)的估计,不同稀释度有机肥条件下尖孢镰刀菌菠菜专化型的生长程度。Cont,复合无机肥;SBM,蒸骨粉;CDC,牛粪堆肥;MI,微生物接种剂。数值表示生长程度的平均值及标准误(n = 3)。对照平板的椭圆面积和延伸长度分别为4475平方毫米和36.5毫米。

第311页,图5图例 错误

图5. 基于对尖孢镰刀菌菠菜专化型菌落椭圆面积(A)和延伸长度(B)的估计,不同稀释度土壤施有机肥条件下尖孢镰刀菌菠菜专化型的生长程度。Cont,复合无机肥;SBM,蒸骨粉;CDC,牛粪堆肥;MI,微生物接种剂。数值表示生长程度中位数的平均值及标准误(n = 3)。对照平板的椭圆面积和延伸长度分别为5473平方毫米和40.5毫米。

正确

图5. 基于对尖孢镰刀菌菠菜专化型菌落椭圆面积(A)和延伸长度(B)的估计,不同稀释度土壤施有机肥条件下尖孢镰刀菌菠菜专化型的生长程度。Cont,复合无机肥;SBM,蒸骨粉;CDC,牛粪堆肥;MI,微生物接种剂。数值表示生长程度的平均值及标准误(n = 3)。对照平板的椭圆面积和延伸长度分别为5473平方毫米和40.5毫米。

第312页,图7图例 错误

图7. 基于对尖孢镰刀菌菠菜专化型菌落椭圆面积(A)和延伸长度(B)的估计,不同稀释度下尖孢镰刀菌菠菜专化型的生长程度。Cont,复合无机肥;SBM,蒸骨粉;CDC,牛粪堆肥;MI2,每公顷施用2000千克的微生物接种剂;MI10,每公顷施用10000千克的微生物接种剂。数值表示生长程度中位数的平均值及标准误(n = 3)。对照平板的椭圆面积和延伸长度分别为3404平方毫米和29.7毫米。

正确

图7. 基于对尖孢镰刀菌菠菜专化型菌落椭圆面积(A)和延伸长度(B)的估计,不同稀释度下尖孢镰刀菌菠菜专化型的生长程度。Cont,复合无机肥;SBM,蒸骨粉;CDC,牛粪堆肥;MI2,每公顷施用2000千克的微生物接种剂;MI10,每公顷施用10000千克的微生物接种剂。数值表示生长程度的平均值及标准误(n = 3)。对照平板的椭圆面积和延伸长度分别为3404平方毫米和29.7毫米。

作者谨对这些更正以及由此造成的任何不便表示歉意。

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