花生壳替代泥炭土对基质及金线莲生长和品质的影响

朱巧莲; 池冰婕; 童晨晓; 张红雪; 胡坤; 郭力铭; 周碧青; 毛艳玲

doi:10.19303/j.issn.1008-0384.2021.01.010

花生壳替代泥炭土对基质及金线莲生长和品质的影响

doi: 10.19303/j.issn.1008-0384.2021.01.010

朱巧莲^1,,
池冰婕¹,
童晨晓¹,
张红雪¹,
胡坤¹,
郭力铭¹,
周碧青^{1, 2},
毛艳玲^{1, 2, 3, ,}

1.
福建农林大学资源与环境学院，福建　福州　350002
2.
土壤生态系统健康与调控福建省高校重点实验室，福建　福州　350002
3.
自然生物资源保育利用福建省高校工程研究中心，福建　福州　350002

基金项目: 中央财政林业科技推广示范项目（闽[2018]TG15号）；福建省林业科技推广项目（2020TG17）；福建农林大学科技创新专项基金（CXZX2019080S）

详细信息

作者简介:
朱巧莲（1994−），女，硕士研究生，主要从事土壤碳氮组分研究（E-mail：934685513@qq.com）

通讯作者:
毛艳玲（1972-），女，博士，教授，主要从事土壤碳氮循环研究（E-mail：fafum@126.com）

中图分类号: S 567.23；S 567.9
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- 被引次数: 0
出版历程
- 收稿日期: 2020-11-04
- 修回日期: 2021-01-01
- 网络出版日期: 2021-02-08
- 刊出日期: 2021-01-31

Effect of peanut shell replacing peat soil on cultivation substrate properties and Anoectochilus roxburghii growth and quality

1.
College of Resources and Environment, Fujian Agriculture and Forestry University, Fuzhou, Fujian　350002, China
2.
Fujian Provincial Key Laboratory of Soil Ecosystem Health and Regulation, Fuzhou, Fujian　350002, China
3.
Fujian University Engineering Research Center for Conservation and Utilization of Natural biological Resources, Fuzhou, Fujian　350002, China

摘要

摘要: 目的研究花生壳替代泥炭土作为栽培基质对金线莲生长品质及基质性质的影响，筛选出适宜金线莲生长的栽培基质配比。方法通过盆栽试验，设置5种处理基质：CK（100%泥炭土）、N75（75%泥炭土+25%花生壳）、N67（67%泥炭土+33%花生壳）、N50（50%泥炭土+50%花生壳）、N33（33%泥炭土+67%花生壳），探究不同配比栽培基质对基质理化性质及金线莲的生长、品质影响。结果（1）花生壳替代泥炭土可以提高基质通气性、持水性和肥力，与对照相比，33%泥炭土+67%花生壳处理基质容重降低53.84%，最大持水量、非毛管孔隙度增加97.14%、148.35%，全氮含量增加7.85%，速效磷增加67.76%，速效钾增加1830.53%，且存在显著差异；（2）33%泥炭土+67%花生壳为栽培基质的金线莲生长状况、品质最好，其株高、根长、叶长、叶宽均显著优于对照组；其总黄酮、多糖、游离氨基酸、总酚含量与对照相比，分别提高41.57%、30.59%、45.08%、53.16%，且存在显著差异。结论花生壳替代泥炭土能提升基质肥力、促进金线莲生长和提高金线莲品质，配比为33%泥炭土+67%花生壳的基质效果最佳。
- 金线莲 /
- 花生壳 /
- 土壤理化性质 /
- 品质 /
- 栽培基质
Abstract: Objective Effects of peanut shell replacing peat soil as the cultivation substrate on the substrate properties and the growth quality of Anoectochilus roxburghii were studied to obtain the optimal substrate ratio for Anoectochilus roxburghii cultivation. Method Five ratios of peanut shell to peat soil, including CK (100% peat soil), N75 (75% peat soil + 25% peanut shell), N67 (67% peat soil + 33% peanut shell), N50 (50% peat soil + 50% peanut shell) and N33 (33% peat soil + 67% peanut shell), were setted to study the physical and chemical properties of the soil and the growth and quality of Anoectochilus roxburghii by pot experiment. Result (1) The replacement of peat soil by peanut shell improved the aeration, water holding capacity and fertility of cultivation substrate. Compared with control, the bulk density of 33% peat soil + 67% peanut shell treatment reduced by 53.84%, maximum water holding capacity and non-capillary porosity increased by 97.14% and 148.35%, and total nitrogen, available phosphorus, and vailable potassium content increased by 7.85%, 67.76%, 1830.53%, resectively, with significant difference. (2) The growth and quality of Anoectochilus roxburghiithe was the best under 33% peat soil + 67% peanut shell treatmentm, the plant height, root length, leaf length, and leaf width of which were significantly better than those of the control group; and the contents of total flavonoids, polysaccharides, free amino acids, and total phenols were significantly increased by 41.57%, 30.59%, 45.08%, and 53.16%, respectively, with significant differences. Conclusion 33% peat soil + 67% peanut shell was the optimal ratio as substract for Anoectochilus roxburghiithe by increasing the soil fertility and improving the growth quality.
- Anoectochilus roxburghii /
- peanut shell /
- soil physical and chemical properties /
- quality /
- cultivation substrate

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表 1 各栽培基质物理性质

Table 1. Soil physical properties of different cultivation substrates

处理 Treatment	容重 Bulk density/(g·cm⁻³)	最大持水量 Maximum water holding capacity/(g·kg⁻¹)	毛管持水量 Capillary water holding capacity/(g·kg⁻¹)	田间持水量 Field water holding capacity/(g·kg⁻¹)	非毛管孔隙度 Non-capillary porosity/%	毛管孔隙度 Capillary porosity/%	总孔隙度 Total porosity/%
CK	0.36±0.03 a	2167.93±14.16 c	1627.80±17.27 a	1616.95±15.83 a	18.88±4.10 c	58.85±3.50 a	77.73±3.70 a
N75	0.23±0.01 b	3118.12±31.91 b	1413.60±14.25 a	1420.80±12.34 a	35.90±3.83 b	39.18±2.43 b	69.75±4.18 a
N67	0.32±0.02 a	2543.20±27.69 c	1541.04±20.37 a	1516.18±21.39 a	31.03±3.27 b	48.58±4.14 a	79.61±2.70 a
N50	0.35±0.01 a	2273.50±11.74 c	1550.21±36.13 a	1533.12±26.84 a	26.17±2.73 bc	56.53±3.25 a	82.70±3.34 a
N33	0.17±0.00 b	4273.79±22.58 a	1417.12±25.31 a	1371.38±31.64 a	46.88±3.59 a	38.14±1.80 b	78.50±1.03 a
注：表中同列数据后不同小写字母表示差异显著（P ＜0.05），表2～5同。 Note: Different lowercase letters on the same column indicate significant differences at P＜0.05. The same as table 2–5.

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表 2 花生壳替代泥炭土对基质养分的影响

Table 2. Effect of peanut shell replacing peat soil on substrate nutrient

处理 Treatment	全氮 Total nitrogen/ (g·kg⁻¹)	全磷 Total phosphorus/ (g·kg⁻¹)	全钾 Total potassium/( g·kg⁻¹)	碱解氮 Alkaline hydrolysis nitrogen/(mg·kg⁻¹)	速效磷 Available phosphorus/ (mg·kg⁻¹)	速效钾 Available potassium/ (mg·kg⁻¹)
CK	13.54±0.58 b	0.76±0.05 b	6.99±0.49 c	672.00±1.9 c	88.50±5.16 d	112.43±6.6 d
N75	13.95±0.34 ab	0.80±0.04 ab	8.70±0.03 a	731.68±18.7 b	91.06±7.07 d	505.76±3.6 c
N67	14.10±0.15 ab	0.81±0.05 ab	8.97±0.14 a	742.00±4.5 b	114.19±4.16 c	651.87±8.2 c
N50	14.22±0.29 a	0.88±0.03 a	8.38±0.43 a	780.89±22.7 a	136.91±4.04 b	1251.74±6.7 b
N33	14.60±0.79 a	0.79±0.07 ab	7.35±0.84 b	785.50±15.8 a	148.47±1.28 a	2170.50±5.5 a

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表 4 花生壳替代泥炭土对金线莲产量及成活率的影响

Table 4. Effects of peanut shell replacing peat soil on yield and survival rate of Anoectochilus roxburghii

处理 Treatment	鲜重 Fresh weight/g	成活率 Survival rate/%	折干率 Discount rate/%
CK	1.24±0.05 c	90.00±0.10 a	8.01±1.14 b
N75	1.46±0.03 b	93.00±0.12 a	8.88±0.23 b
N67	1.51±0.02 b	90.00±0.10 a	10.93±0.28 a
N50	1.71±0.09 a	87.00±0.12 a	11.03±0.97 a
N33	1.54±0.12 b	87.00±0.06 a	10.78±0.32 a

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表 3 花生壳替代泥炭土对金线莲根、叶、株高及茎粗的影响

Table 3. Effect of peanut shell replacing peat soil on the roots, leaves, plant height and stem diameter of Anoectochilus roxburghii

处理 Treatment	根长 Root length/cm	根数 Root number	不定根数 Adventitious root	叶片数 Leaf number	叶长 Leaf length/cm	叶宽 Leaf width/cm	株高 Plant height/cm	茎粗 Stem diameter/mm
CK	3.29±0.13 c	2.87±1.18 b	1.71±0.14 d	3.41±0.13 c	2.22±0.01 c	1.70±0.07 b	6.81±0.10 d	2.54±0.05 c
N75	4.22±0.37 b	3.09±3.11 b	2.07±0.26 c	4.20±0.16 b	2.43±0.10 b	1.75±0.05 b	10.36±0.20 c	2.58±0.08 bc
N67	4.36±0.20 b	3.66±2.15 a	2.19±0.27 ab	4.65±0.14 a	2.47±0.13 b	1.78±0.05 b	10.86±0.28 b	2.60±0.08 bc
N50	4.70±0.16 a	3.60±1.15 a	2.28±0.11 ab	4.70±0.11 a	2.81±0.16 a	2.01±0.09 a	11.16±0.01 a	2.65±0.03 b
N33	4.73±0.07 a	3.88±0.17 a	2.50±0.18 a	4.72±0.18 a	2.49±0.07 b	1.80±0.04 b	11.38±0.11 a	2.78±0.03 a

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表 5 花生壳替代泥炭土对金线莲品质的影响

Table 5. Effect of peanut shell replacing peat soil on the quality of Anoectochilus roxburghii

处理 Treatment	维生素C含量 Vc/(mg·hg⁻¹)	总黄酮 Total flavonoids/(mg·g⁻¹)	多糖 Polysaccharide/(mg·g⁻¹)	游离氨基酸 Free amino acid/(mg·g⁻¹)	总酚 Total phenols/(mg·g⁻¹)
CK	11.53± 2.80 b	5.75± 0.13 b	53.74± 0.56 c	51.35±5.25 b	6.96± 1.19 b
N75	12.11±1.77 b	6.29± 0.02 b	60.03±0.84 b	66.31±6.38 b	7.69± 0.91 b
N67	13.17± 0.61 b	6.39± 0.14 b	61.89± 0.63 b	69.39± 4.03 b	7.88± 2.69 b
N50	18.94± 2.86 a	6.64± 0.11 b	65.29± 3.37 ab	71.13± 4.19 b	7.98± 1.07 b
N33	15.08± 1.31 ab	8.14± 0.41 a	70.18±2.14 a	74.50±5.89 a	10.66±2.36 a

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参考文献(25)

[1]	郎楷永, 陈心启, 罗毅波, 等. 中国植物志(第17卷)[M]. 北京: 科学出版社, 1999: 204-227.
[2]	LIU Q, HA W, LIU Z L, et al. 3-Hydroxybutanolide derivatives and flavonoid glucosides from Anoectochilus roxburghii [J]. Phytochemistry Letters, 2014, 8: 109−115. doi: 10.1016/j.phytol.2014.02.013
[3]	SHAO Q S, DENG Y M, LIU H B, et al. Essential oils extraction from Anoectochilus roxburghii using supercritical carbon dioxide and their antioxidant activity [J]. Industrial Crops and Products, 2014, 60: 104−112. doi: 10.1016/j.indcrop.2014.06.009
[4]	谢静, 谭嘉娜, 杨俊贤, 等. 不同栽培基质对金线莲生长和生物产量的影响 [J]. 广东农业科学, 2014, 41(20):33−36. doi: 10.3969/j.issn.1004-874X.2014.20.008 XIE J, TAN J N, YANG J X, et al. Effects of different substrates on growth and biomass of Anoectochilus roburghii [J]. Guangdong Agricultural Sciences, 2014, 41(20): 33−36.(in Chinese) doi: 10.3969/j.issn.1004-874X.2014.20.008
[5]	洪琳, 邵清松, 周爱存, 等. 金线莲产业现状及可持续发展对策 [J]. 中国中药杂志, 2016, 41(3):553−558. HONG L, SHAO Q S, ZHOU A C, et al. Current status and sustainable development countermeasures of Anoectochilus roxburghii [J]. China Journal of Chinese Materia Medica, 2016, 41(3): 553−558.(in Chinese)
[6]	吴梅, 孔向军, 凌丹燕, 等. 浙江地区金线莲种质资源调查与产业保护现状 [J]. 浙江农业科学, 2020, 61(3):520−523, 527. WU M, KONG X J, LING D Y, et al. Germplasm resources rurvey and status of industrial protection for Anoectochilus roxburghii in Zhejiang Province [J]. Journal of Zhejiang Agricultural Sciences, 2020, 61(3): 520−523, 527.(in Chinese)
[7]	余松金, 施宗强. 金线莲栽培基质配比试验 [J]. 现代农业科技, 2016(13):86−87. doi: 10.3969/j.issn.1007-5739.2016.13.050 YU S J, SHI Z Q. Ratio test of growing media on Anoectochilus formosanus [J]. Modern Agricultural Science and Technology, 2016(13): 86−87.(in Chinese) doi: 10.3969/j.issn.1007-5739.2016.13.050
[8]	马海林, 孙效鑫, 杜振宇, 等. 花生壳基质与几种常用有机基质理化性质的比较研究 [J]. 山东林业科技, 2005, 35(6):11−13. doi: 10.3969/j.issn.1002-2724.2005.06.004 MA H L, SUN X X, DU Z Y, et al. Comparisons of physical and chemical characteristics among peanut hull medium and several ordinary organic media [J]. Journal of Shandong Forestry Science and Technology, 2005, 35(6): 11−13.(in Chinese) doi: 10.3969/j.issn.1002-2724.2005.06.004
[9]	董文召, 韩锁义, 徐静, 等. 花生壳研究现状与应用前景分析 [J]. 中国农学通报, 2019, 35(32):14−19. doi: 10.11924/j.issn.1000-6850.casb18070068 DONG W Z, HAN S Y, XU J, et al. Research status and application prospect of peanut shell [J]. Chinese Agricultural Science Bulletin, 2019, 35(32): 14−19.(in Chinese) doi: 10.11924/j.issn.1000-6850.casb18070068
[10]	穆瑞荷. 花生壳综合利用研究 [J]. 现代农业科技, 2010(4):374, 376. MU R H. Study on comprehensive utilization of peanut hull [J]. Modern Agricultural Sciences and Technology, 2010(4): 374, 376.(in Chinese)
[11]	孙治强, 赵永英, 倪相娟. 花生壳发酵基质对番茄幼苗质量的影响 [J]. 华北农学报, 2003(4):86−90. doi: 10.3321/j.issn:1000-7091.2003.04.024 SUN Z Q, ZHAO Y Y, NI X J. Effect of fermented peanut shells substrates on tomato seedling [J]. Acta Agriculturae Boreali—Sinica, 2003(4): 86−90.(in Chinese) doi: 10.3321/j.issn:1000-7091.2003.04.024
[12]	刘庆超, 王奎玲, 刘庆华, 等. 几种有机物料理化性状分析及与传统泥炭基质的比较 [J]. 北方园艺, 2007(7):37−39. doi: 10.3969/j.issn.1001-0009.2007.07.014 LIU Q C, WANG K L, LIU Q H, et al. Test on the physical and chemical characteristics of several organic materials and compare to the traditional peat moss cultural media [J]. Northern Horticulture, 2007(7): 37−39.(in Chinese) doi: 10.3969/j.issn.1001-0009.2007.07.014
[13]	朱建军, 黄雨佳, 金建红, 等. 不同栽培基质对金线莲3种基原植物生长及其活性成分含量的影响 [J]. 中国中药杂志, 2019, 44(12):2467−2471. ZHU J J, HUANG Y J, JIN J H, et al. Effect of cultivation substrate on growth and active component contents of Anoectochilus roburghii from three different origins [J]. China Journal of Chinese Materia Medica, 2019, 44(12): 2467−2471.(in Chinese)
[14]	鲍士旦. 土壤农化分析[M]. 北京: 中国农业出版社, 2000.
[15]	秦朋. 金线莲遗传多样性和有效成分分析[D]. 福州: 福建农林大学, 2013. QIN P. The analysis of the genetic diversity and effective components of anoectochilus[D]. Fuzhou: Fujian Agriculture and Forestry University, 2013. (in Chinese)
[16]	梁巧明, 刘运权, 叶庆生, 等. 4种废料基质对蝴蝶兰和石斛兰生长作用初探 [J]. 园艺学报, 2006(4):890. doi: 10.3321/j.issn:0513-353X.2006.04.049 LIANG Q M, LIU Y Q, YE Q S, et al. Influences of four waste material media on vegetative growth of Phalaenopsis and Dendrobium [J]. Acta Horticulturae Sinica, 2006(4): 890.(in Chinese) doi: 10.3321/j.issn:0513-353X.2006.04.049
[17]	沈达, 周晓燕, 韩书广. 花生壳综合利用研究进展 [J]. 木材加工机械, 2017, 28(1):43−46. SHEN D, ZHOU X Y, HAN S G. Research progress on the comprehensive utilization of Peanut Shell [J]. Wood Processing Machinery, 2017, 28(1): 43−46.(in Chinese)
[18]	徐日荣, 林兵, 陈湘瑜, 等. 自然发酵花生壳对兰花新芽分化的影响研究 [J]. 福建农业科技, 2017(5):6−8. XU R R, LIN B, CHEN X Y, et al. Effects of naturally fermented peanut shell on sprout differentiation of orchid [J]. Fujian Agricultural Science and Technology, 2017(5): 6−8.(in Chinese)
[19]	盖旭, 李伟, 刘庆超, 等. 不同菌剂及发酵时间的花生壳基质对矮牵牛生长发育的影响 [J]. 土壤通报, 2018, 49(5):1157−1164. GAI X, LI W, LIU Q C, et al. Effect of peanut shell substrate with different microbial agents and fermentation time on growth and development of P. hybrida [J]. Chinese Journal of Soil Science, 2018, 49(5): 1157−1164.(in Chinese)
[20]	孙燕, 杨秀珍, 钱璐, 等. 花生壳基质在大花蕙兰栽培中的应用研究[C]//中国观赏园艺研究进展(2014). 中国园艺学会观赏园艺专业委员会: 中国园艺学会, 2014: 5.
[21]	孙燕, 杨秀珍, 钱璐, 等. 花生壳栽培基质对大花蕙兰‘世界和平’生长及生理特性的影响 [J]. 浙江农林大学学报, 2015, 32(4):566−571. SUN Y, YANG X Z, QIAN L, et al. Growth and physiological characteristics of Cymbidium hybridum‘Shijieheping' in peanut hull media [J]. Journal of Zhejiang A & F University, 2015, 32(4): 566−571.(in Chinese)
[22]	陈湘瑜, 徐日荣, 唐兆秀. 发酵花生壳在金线莲栽培中的应用 [J]. 安徽农业科学, 2016, 44(32):129−132. doi: 10.3969/j.issn.0517-6611.2016.32.045 CHEN X Y, XU R R, TANG Z X. Application of decomposed peanut shell in cultivating Anoectochilus roxburghii(wall.) lindl [J]. Journal of Anhui Agricultural Sciences, 2016, 44(32): 129−132.(in Chinese) doi: 10.3969/j.issn.0517-6611.2016.32.045
[23]	麻永红, 肖玉, 杨曾奖, 等. 不同基质对铁皮石斛苗期生长特性的影响 [J]. 中南林业科技大学学报, 2017, 37(7):73−77. MA Y H, XIAO Y, YANG Z J, et al. Effects of the different media on growth of Dendrobium officinale seedling [J]. Journal of Central South University of Forestry & Technology, 2017, 37(7): 73−77.(in Chinese)
[24]	苏菲, 黄作喜. 金线莲繁殖及栽培技术研究进展 [J]. 安徽农学通报, 2020, 26(14):32−35. SU F, HUANG Z X. Research progress on propagation and cultivation technology of Anoectochilus [J]. Anhui Agricultural Science Bulletin, 2020, 26(14): 32−35.(in Chinese)
[25]	MA H L, WANG Q H, MA B Y, et al. Study on application of peanut hull media in containerized seedling cultivation of eastern arborvitae [J]. Forestry Science & Technology, 2006(6): 5−8.