马铃薯原原种生产中基质、密度和施肥因子的优化

林金秀; 吴玥琳; 凌永胜; 周婷; 陈品品

doi:10.19303/j.issn.1008-0384.2017.012.004

马铃薯原原种生产中基质、密度和施肥因子的优化

doi: 10.19303/j.issn.1008-0384.2017.012.004

福建省泉州市农业科学研究所, 福建泉州 362212

基金项目:

福建省科技创新平台建设项目 2013N2002

福建省科技计划重大专项 2017NZ0002

福建省科技计划星火项目 2017S0021

详细信息

作者简介:
林金秀(1982-), 男, 硕士, 助理研究员, 主要从事马铃薯育种与栽培技术研究应用

中图分类号: S532
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- 被引次数: 0
出版历程
- 收稿日期: 2017-10-15
- 修回日期: 2017-11-18
- 刊出日期: 2017-12-28

Optimization of Substrate Formulation, Planting Density and Fertilization for Producing Potato Original Cultivar Seeds

Quanzhou Institute of Agricultural Science, Quanzhou, Fujian 362212, China

摘要

摘要: 以马铃薯中熟品种"泉云4号"脱毒试管苗为试验材料, 种植并生产原原种。采用三因素裂区设计, 研究马铃薯原原种生产中基质、密度和施肥因子的优化。结果表明:基质配比、种植密度及追肥次数对马铃薯原原种的总产量、商品薯产量及经济参数有极显著影响; 基质配比A₄(蛭石:珍珠岩:河沙为1:1:2)的马铃薯原原种叶绿素含量及叶面积指数较高, 其总产量、商品薯产量及相关经济参数最优; 种植密度B₁(株行距0.05 m×0.10 m)有效增加原原种总产量与商品薯产量, 提高了经济效益; 施肥次数C₂(追肥2次·周^-1)既可增加原原种产量, 又能保证较高的商品薯率; 基质配比、种植密度及追肥次数三因素之间有极显著性交互作用; 本试验条件下, 蛭石:河沙为1:1、株行距0.05 m×0.10 m时、追肥2次·周^-1, 原原种生产效益表现最好。
- 马铃薯 /
- 基质 /
- 种植密度 /
- 施肥次数 /
- 原原种
Abstract: Virus-free test-tube seedlings of a potato cultivar, Quanyun No.4, were used in this study to analyze and optimize the cultivation conditions for producing original cultivar seeds.A complete split-plot experimental design was applied for the optimization on substrate formulation, planting density and fertilization in the experiment.The results indicated that the 3 factors were highly significant in affecting the seed yield, marketable tuber production and economic indicators.The chlorophyll content, leaf area indices, tuber yield and relevant economic considerations of the seeds grown on Formula A₄ (substrate in a ratio of vermiculite:perlite:sand=1:1:2) were the highest among all tested media.The planting density B₁ with a row spacing of 0.05 m×0.10 m effectively increased the yields on seeds and marketable potatoes with an improved financial return.The Fertilization C₂ applying fertilizer twice weekly increased the seed production while maintained a high percentage of marketable potatoes harvested.An extremely significant interaction among the substrate formulation, planting density and fertilization frequency was observed.In the end, the conditions for an efficient production of potato cultivar seeds would include a culture substrate consisting of vermiculite and sand in 1:1 ratio, a planting spacing between rows of 0.05 m×0.10 m, and fertilizer application twice a week.
- potato /
- substrate /
- planting density /
- fertilization /
- original cultivar seeds

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表 1 裂区主处理生产成本

Table 1. Production costs of major treatments in split-plot experiment

基质配比	每0.1 m^-3成本/元	种植密度	成本/(元·m^-2)	施肥次数	成本/(元·m^-2)
A₁	11.75	B₁	44.44	C₁	0.26
A₂	11.75	B₂	29.63	C₂	0.51
A₃	14.5	B₃	22.22	C₃	0.77
A₄	11.75

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表 2 基质配比对原原种相关农艺性状及产量的影响

Table 2. Effect of substrate formulation on agronomic indices and yield of cultivar seeds

基质配比	移栽成活率/%	叶绿素/SPAD	叶面积指数	产量/(粒·m^-2)	商品薯产量/(粒·m^-2)
A₁	98.47 aA	32.44 aA	2.23 bB	408.75 bB	264.06 bB
A₂	97.5 bcA	30.37 cC	2.30 bB	422.60bB	250.93 bB
A₃	98.19 abA	31.38 bB	2.32 bB	497.81 aA	254.94 bB
A₄	97.36 cA	32.59 aA	2.53 aA	500.41 aA	311.01 aA
注:同列数据后不同大、小写字母表示差异达极显著(P < 0.01)或显著(P < 0.05)水平。表 3~7同。

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表 3 种植密度对原原种相关农艺指标及产量的影响

Table 3. Effect of planting density on agronomic indices and yield of cultivar seeds

种植密度	移栽成活率/%	叶绿素/SPAD	叶面积指数	产量/(粒·m^-2)	商品薯产量/(粒·m^-2)
B₁	96.98 bB	31.58 bB	3.20 aA	548.77 aA	322.07 aA
B₂	97.40 bB	32.04 aA	2.15 bB	451.37 bB	271.19 bB
B₃	99.27 aA	31.46 bB	1.69 cC	372.07 cC	217.44 cC

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表 4 追肥次数对原原种相关农艺指标及产量的影响

Table 4. Effect of fertilization frequency on agronomic indices and yield of cultivar seeds

追肥次数	移栽成活率/%	叶绿素/SPAD	叶面积指数	产量/(粒·m^-2)	商品薯产量/(粒·m^-2)
C₁	0.98 aA	31.49 bB	2.29 bB	442.59 cB	277.78 aA
C₂	0.98 aA	31.95 aA	2.49 aA	475.05 aA	273.28 aAB
C₃	0.98 aA	31.65 bB	2.25 bB	454.53 bB	259.64 bB

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表 5 处理间相关农艺指标及产量的多重比较分析

Table 5. Multiple comparison on agronomic indices and yield of seeds under various treatments

处理	移栽成活率/%	叶绿素/SPAD	叶面积指数	产量/(粒·m^-2)	商品薯产量/(粒·m^-2)
A₁B₁C₁	98.75 abAB	32.98 cdBC	3.02 cdeBCD	501.86 defDEFG	357.41 bBC
A₁B₁C₂	95.00 cdBC	33.78 abAB	3.16 bcB	659.26 bB	401.86 aAB
A₁B₁C₃	98.75 abAB	31.88 gFGHIJ	2.89 efCD	537.04 cdCDE	316.67 cdeCDEFG
A₁B₂C₁	96.25 bcdABC	31.98 gEFGHI	1.91 noIJKL	364.20 pqOP	241.98 klmnJKLM
A₁B₂C₂	99.37 aA	33.38 bcBC	2.27 ghijEFG	409.88 klmnoKLMNO	261.73hijkGHIJK
A₁B₂C₃	98.12 abAB	32.93 cdCD	1.97 klmHIJ	333.33 qrPQ	232.10 klmnJKLM
A₁B₃C₁	100.00 aA	31.13 ijJKL	1.66 pqrsLMNO	391.67 mnopLMNO	247.22 jklmIJKL
A₁B₃C₂	100.00 aA	32.05 fgEFG	1.74 opqrJKLMN	245.37 sRS	188.89 opqMNO
A₁B₃C₃	100.00 aA	31.90gFGHIJ	1.47 tO	236.11 sS	154.63 qO
A₂B₁C₁	97.50abcABC	29.68 lmO	2.79 fD	492.59 efEFGH	324.07 bcdeCDEF
A₂B₁C₂	95.00 cdBC	29.63 mO	3.10 bcdBC	494.45 efEFG	275.93 fghijEFGHIJ
A₂B₁C₃	97.5 abcABC	28.775 nP	2.97 defBCD	437.037 ijklHIJKL	274.0741 ghijFGHIJ
A₂B₂C₁	96.25 bcdABC	29.90 lmO	2.25 hijEFG	413.5803 klmnJKLMNO	253.0864 ijklHIJKL
A₂B₂C₂	95.00 cdBC	31.90gFGHIJ	2.33 ghiEFG	448.15 hijklGHIJK	290.13 efghiDEFGHI
A₂B₂C₃	97.50 abcABC	32.15 efgDEFG	2.15 ijkFGHI	407.41 lmnoKLMNO	245.68 jklmIJKL
A₂B₃C₁	100.00 aA	29.93 lmNO	1.61 qrstMNO	369.45 opqNOP	155.56 qO
A₂B₃C₂	100.00 aA	31.13 ijJKL	1.81 mnopJKLM	378.70 nopMNOP	207.41mnoKLMNO
A₂B₃C₃	98.75 abAB	30.25 klMNO	1.68 pqrsKLMNO	362.04 pqOP	232.41 klmnJKLM
A₃B₁C₁	97.50 abcABC	32.03 gEFGH	3.49 aA	501.85 defDEFG	344.44bcCD
A₃B₁C₂	97.50 abcABC	29.70 lmO	3.59 aA	716.67 aA	314.81 cdefCDEFG
A₃B₁C₃	95.00 cdBC	32.00 gEFGHI	2.99 cdeBCD	466.67 fghijFGHIJ	188.89 opqMNO
A₃B₂C₁	100.00 aA	30.73 jkLMN	1.92 mnoIJKL	488.89 fghEFGH	253.09 ijklHIJKL
A₃B₂C₂	97.50 abcABC	30.83 jkLM	2.11 jklGHI	490.12fgEFGH	214.81 lmnoKLMN
A₃B₂C₃	97.50 abcABC	30.93 jKLM	1.95 lmnHIJ	556.79 cCD	295.06defghDEFGHI
A₃B₃C₁	100.00 aA	31.70 ghiGHIJK	1.565 rstMNO	383.3333 nopLMNOP	202.7778 nopLMNO
A₃B₃C₂	98.75 abAB	32.73 deCDE	1.78 nopqJKLM	425.00 klmIJKLMN	251.85 ijklIJKL
A₃B₃C₃	100.00 aA	31.75 ghGHIJ	1.51 stNO	450.93 ghijkFGHIJK	228.70 klmnoJKLM
A₄B₁C₁	100.00 aA	32.65 defCDEF	3.23 bB	533.33 deCDE	420.37 aA
A₄B₁C₂	97.50 abcABC	32.78 cdCDE	3.66 aA	555.55 cCD	333.33 bcdCD
A₄B₁C₃	93.75 dC	33.13 cdBC	3.50 aA	688.89 abAB	312.96 cdefgCDEFG
A₄B₂C₁	98.75 abAB	34.25 aA	2.37 ghEF	570.37 cC	329.63 bcdeCDE
A₄B₂C₂	96.25 bcdABC	34.30 aA	2.45 gE	428.40 jklmIJKLM	309.88 cdefgCDEFG
A₄B₂C₃	96.25 bcdABC	31.23 hijHIJKL	2.18 ijFGH	504.9383 defDEF	327.16 bcdeCDEF
A₄B₃C₁	96.25 bcdABC	30.93 jKLM	1.68 pqrsLMNO	300.00 rQR	203.70 noLMNO
A₄B₃C₂	98.75 abAB	31.20 hijIJKL	1.94 lmnHIJK	449.07 ghijkFGHIJK	254.63 hijklHIJKL
A₄B₃C₃	98.75 abAB	32.90 cdCD	1.82 mnopJKLM	473.15 fghiFGHI	307.41 cdefgCDEFGH

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表 6 裂区主处理间经济参数的多重比较

Table 6. Multiple comparison on economic indicators of major treatments in split-plot experiment

基质配比	利润/(元·m^-2)	经济效益	种植密度	利润/(元·m^-2)	经济效益	施肥次数	利润/(元·m^-2)	经济效益
A₁	76.61 cC	0.87cC	B₁	109.00 aA	1.12 aA	C₁	87.06 bAB	1.01 bAB
A₂	75.44 cC	0.89 cC	B₂	89.05 bB	1.08 aA	C₂	91.97 aA	1.06 aA
A₃	88.93 bB	1.02 bB	B₃	64.47 cC	0.86 bB	C₃	83.49 bB	0.98 bB
A₄	109.05 aA	1.29 aA

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表 7 处理间经济参数的多重比较分析

Table 7. Multiple comparison on economic indicators among treatments

处理	利润/(元·m^-2)	经济效益
A₁B₁C₁	111.14 defFGHI	1.15 deFGH
A₁B₁C₂	155.70 aA	1.61 aA
A₁B₁C₃	105.45 defgFGHIJ	1.09 defGHI
A₁B₂C₁	63.80 mnopqrPQRST	0.78 lmnKLM
A₁B₂C₂	78.60 klmMNOPQ	0.96 fghijkGHIJK
A₁B₂C₃	54.15 qrsRST	0.66 noLMN
A₁B₃C₁	78.27 klmnMNOPQ	1.05 efghGHIJ
A₁B₃C₂	23.48 tU	0.31 pOP
A₁B₃C₃	18.87 tU	0.25 pP
A₂B₁C₁	99.29 efghFGHIJKL	1.03 efghijGHIJ
A₂B₁C₂	84.96 hijklKLMNO	0.88 jklmIJKL
A₂B₁C₃	72.67 lmnopNOPQR	0.75 mnKLM
A₂B₂C₁	77.01 klmnoMNOPQ	0.94 fghijklGHIJK
A₂B₂C₂	94.78 ghijHIJKLM	1.16 deFGH
A₂B₂C₃	73.04 lmnopNOPQR	0.89 ijklmIJK
A₂B₃C₁	46.33 sT	0.62 noMN
A₂B₃C₂	63.48 opqrPQRST	0.85 klmJKL
A₂B₃C₃	67.39 mnopqOPQRS	0.90 hijklmIJK
A₃B₁C₁	104.50 defgFGHIJK	1.05 efghGHIJ
A₃B₁C₂	138.32 bAB	1.39 bcABCDE
A₃B₁C₃	50.29 rsST	0.50 oNO
A₃B₂C₁	89.32 hijkJKLMN	1.06 efghGHIJ
A₃B₂C₂	77.83 klmnoMNOPQ	0.92 ghijklIJK
A₃B₂C₃	114.98 dDEFG	1.35 bcCDEF
A₃B₃C₁	60.52 pqrsQRST	0.79 lmnKLM
A₃B₃C₂	83.32 ijklLMNOP	1.08 defgGHI
A₃B₃C₃	81.31 jklmLMNOP	1.05 efghiGHIJ
A₄B₁C₁	136.33 bABC	1.41 bABCD
A₄B₁C₂	114.66 dEFGH	1.19 deEFG
A₄B₁C₃	134.70 bBCD	1.39 bcBCDE
A₄B₂C₁	131.33 bcBCDE	1.61 aAB
A₄B₂C₂	96.75 fghiGHIJKLM	1.18 deEFG
A₄B₂C₃	116.99 cdCDEF	1.42 bABCD
A₄B₃C₁	46.88 sT	0.63 noMN
A₄B₃C₂	91.72 ghijkIJKLMN	1.23cdDEFG
A₄B₃C₃	112.11 deEFGH	1.50 abABC

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