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种植行距与灌水量对西北日光温室番茄生育和产量的影响.
- Source :
-
Transactions of the Chinese Society of Agricultural Engineering . 2018, Vol. 34 Issue 24, p81-89. 9p. - Publication Year :
- 2018
-
Abstract
- This study aims at discussing the effects of planting row spacing and irrigation amount on the plant growth, chlorophyll fluorescence parameters and yield of tomato, the purpose is to obtain the suitable arrangement of irrigation amount and planting row spacing for greenhouse tomato in Northwest China. The experiment was conducted in a solar greenhouse at the Green Lily fruit and vegetable cooperatives in Yangling Agricultural Hi-tech Industries Demonstration Zone in Shaanxi province from January to June in 2016. The cultivated variety of tomato in the experiment was HL2109. The treatments comprised three planting row spacing (L1(60 cm), L2(45 cm), L3 (30 cm))with 80 cm ridge distance and 35 cm plant spacing. Based on the cumulative evaporation from a 20 cm diameter pan between two irrigations (E), 0.6 E, 0.8 E, 1.0 E, 1.2 E were set as four different levels of irrigation amount, when the cumulative evaporation reached (20±3) mm, irrigation will be conduct. Twelve treatments were experimented totally and every treatment was replicated three times in randomized complete block designs. Based on the growth indexes, chlorophyll fluorescence parameters in different growth stages and the leaf area index, net photosynthetic rate of tomato plants during the critical period of yield formation, the effects of different row spacing and irrigation amount on tomato growth, photosynthetic physiological activities and yield were analyzed, and the relationship between different growth and physiological indexes with yield were studied. The results showed that tomato growth index: chlorophyll fluorescence parameters, net photosynthetic rate, yield and irrigation water use efficiency were all affected by both planting row spacing and irrigation amount in varying degrees, but there is no significant interaction between the two factors. Low planting row spacing treatment(L3) resulted in redundant plant growth and excessive LAI, thereby photosynthetic physiological activities of crop population were inhibited, finally causing lower yield and irrigation water use efficiency. Excessively low irrigation amount inhibited photosynthetic physiological activities and showed a cumulative effect of water stress with the growth period of tomato plants. By path analysis, LAI and Pn have the most direct impact on yield among the indicators, improving the Pn is an important way to increase crop yield. Plant height and stem diameter have a good regression relationship with leaf area index(P=0.004 6), plant with large stem diameter and low height has suitable leaf area index, which is beneficial to yield formation. The yield of tomato followed a downward quadratic parabola shape with the increase of irrigation amount and planting row spacing, however, when planting row spacing and irrigation amount reached 45 cm and 0.8E respectively, continuing to increase planting row spacing and irrigation amount would not significantly increase yield. Considering the irrigation water use efficiency and yield, L1-0.8E and L2-0.8E treatment were better than others. Compared with the highest yield treatment (L1-1.2E), L1-0.8E and L2-0.8E treatments can increase irrigation water use efficiency by 36.00% and 29.29% when yield reduced by only 4.28% and 9.00%. So, when the ridge distance is 80 cm and the plant spacing is 35 cm, the planting row distance selected 45-60 cm, the irrigation quantity is set to 0.8E would be the appropriate combination of irrigation amount and planting row spacing of greenhouse tomato in Northwest China. [ABSTRACT FROM AUTHOR]
Details
- Language :
- Chinese
- ISSN :
- 10026819
- Volume :
- 34
- Issue :
- 24
- Database :
- Academic Search Index
- Journal :
- Transactions of the Chinese Society of Agricultural Engineering
- Publication Type :
- Academic Journal
- Accession number :
- 133730079
- Full Text :
- https://doi.org/10.11975/j.issn.1002-6819.2018.24.010