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Effect of Light Environment on Runner Plant Propagation of Strawberry. Chia-Chyi Wu 1 , Shuo-Ting Hsu 1 , Mi ng-Yi Chang 2 , Wei Fang 3 Department of Horticulture 1 and Biomechatronic Engineering 2 National ILan University Department of Bio-Industrial Mechatronics Engineering 3
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Effect of Light Environment on Runner Plant Propagation of Strawberry Chia-Chyi Wu1,Shuo-Ting Hsu1, Ming-Yi Chang2, Wei Fang3 Department of Horticulture1 and Biomechatronic Engineering2 National ILan University Department of Bio-Industrial Mechatronics Engineering3 National Taiwan University Taiwan, R.O.C
Outline Introduction Materials and Methods Results and Discussion Conclusion
Strawberry (Fragaria × ananassa Duch)
Strawberry (Fragaria × ananassa Duch) • The availability of high quality plants is one of the most factors in obtaining good yields. • Starting production with healthy, uniform and plentiful plants gives the grower a greater chance of high productivity.
Introduction Runner is an elongated, two-node, vegetative, axillary shoot, which supports the ramet until it is completely independent on its own root. To produce new clonal plants through runners is the main protocol of strawberry vegetative propagation by nurseries.
Apr. - Aug. runner plants propagated Planting Schedule in Taiwan late Sep. transplanting Dec. - Apr. Oct. - mid-Nov. bearing fruits florescence
Light Environment • Light is one of the most important and variable components of the plant environment • Low cost and long life artificial light applied in horticultural crop production was a widespread technology, especially in controlled environment agriculture
Experiment Objective • The runner plant propagation of strawberry in Taiwan usually was limited at certain district and season • The aim of our research was to evaluate the suitable light environment to propagation strawberry runner plant
Plant Material • Strawberry were obtained from a commercial nursery in Miaoli (Fragaria × ananassa Duch. cv Toyonoka), Taiwan • 4 developed leaves • 7 inches plastic pots • Medium -2peat: 2sand: 2perlite: 1vermiculite (v/v) • Fertilizer – Hyponex #2, 20 - 20 - 20 (in 1000 dilution)
Color temperature (T5 light) LED Culture Condition Experiment 1 • Day/night temperature: • 25/20 ℃ • Day length: • 16h • period • 6 – 8 weeks Experiment 2
Color temperature (T5 light) Experiment 1 6 Lamps 110 – 122 μmol m-2 s-1 6500 K 5000 K 4000 K 3000 K 3 Lamps 50 – 55 μmol m-2 s-1 6500 K 5000 K 4000 K
LED 83 – 100 μ mol m-2 s-1 Experiment 2 R 100 % red light R + B 70% red light + 30% blue light R + B + G 70% red light + 20% blue light + 10% green light
Growth Investigation leaf number, width, length chlorophyll content (SPAD value) Every 2 weeks crown size runner number of strawberry plants dry weights The end of experiments soluble carbohydrate level starch level
Experiment 1 Effect of T5 Light on the Growth and Runner Formation of Strawberry Plant
Table 1. Effect of various radiation source on leaf number, width, length and crown diameter of strawberry plant for 8 weeks Means followed by the different letters in each column are significantly different at 5% level by Duncan’s Multiple Range Test n = 5
Table 2. Effect of various radiation source on dry weight, SPAD value, soluble carbohydrate content and starch content of strawberry plant for 8weeks Means followed by the different letters in each column are significantly different at 5% level by Duncan’s Multiple Range Test n = 5
The Effect of T5 light on the growth of strawberry plant • The highest growth parameters were observed under 6500 K × 6and 5000 K × 6 treatment • All growth parameters of plants under 6 lamps treatment were better than those under 3 lamps • Light intensity obviously influenced strawberry plant growth
Effect of T5 light on the growth of strawberry plant • Crown is a very important carbohydrate storage organ of strawberry • The biggest crown was also found under 6500 K × 6 treatment • Strawberry plants require a large amount of carbohydrate not only for the vegetative growth but also for the reproductive growth
Fig.1 Effect of various radiation source on the runner number of strawberry plant n = 5
Effect of T5 light on the runner number of strawberry plant • The 6500 K × 6 treatment obtained the highest runner number • Color temperature of T5 light had effect in the runner formation of strawberry
3000 K × 6 4000 K × 6 5000 K × 6 6500 K × 6 Fig.2 Effect of various radiation source on the growth of strawberry plant n = 5 4000 K × 3 5000 K × 3 6500 K × 3
Experiment 2 Effect of LED on the Growth and Runner Formation of Strawberry Plant
Table 3. Effect of various light quality on leaf number, leaf width, leaf length and crown diameter of strawberry plant for 6weeks Means followed by the different letters in each column are significantly different at 5% level by Duncan’s Multiple Range Test n = 5
Table 4. Effect of various light quality on dry weight, SPAD value, soluble carbohydrate content and starch content of strawberry for 6weeks Means followed by the different letters in each column are significantly different at 5% level by Duncan’s Multiple Range Test n = 5
Effect of LED light on the growth of strawberry plant • 70 % red light+ 30 % blue light (R+B) treatment had the highest SPAD value, dry weight, crown diameter, carbohydrate and starch content
Fig. 3 Effect of various light quality on the runner number of strawberry plant n = 5
Table 5. Effect of various light quality on ramet number, dry weight, crown diameter , chlorophyll content, soluble carbohydrate content and starch content of strawberry ramet Means followed by the different letters in each column are significantly different at 5% level by Duncan’s Multiple Range Test n = 5
Effect of LED lighton the runner numberof strawberry plant • Savini et al.(2008) reported strawberry can produce up to 10-15 runner chains per plant per year, with 3 to 5 ramets per runner chain, giving the opportunity to generate 40-50 colonal ramets per each initial plant in a sigle season. • In our study, it could produce 6.2 ramets per runner under R+B+G treatment for six weeks.
R+B+G R R+B Fig.4 Effect of LED light on the growth of strawberry plant n = 5
100 μm 100 μm 100 μm R R+B R+B+G 50 μm 50 μm 50 μm
Conclusion Our result showed cool white light (6500K and 5000K) combined with high light intensity (6 lamps) not only enhanced plant growth, but also promoted runner formation and ramets growth. For strawberry‘Toyonoka’growth, treatment of R+Bwas better than R.
Using LED as light source for runner production was better than those of using T5 light • Our study suggested that using LED as light source in facility cultivation for strawberry propagation and production seems to be a feasible strategy