Induced leaf intercellular CO2, photosynthesis, potassium and nitrate retention and strawberry early fruit formation under macronutrient limitation
文献类型: 外文期刊
作者: Li, Hong 1 ; Li, Tingxian 4 ; Fu, Gang 5 ; Katulanda, Panchali 3 ;
作者机构: 1.Chinese Acad Trop Agr Sci, Environm & Plant Protect Inst, Haikou 571101, Hainan, Peoples R China
2.Chinese Minist Agr, Danzhou Sci Observat & Expt Stn Agroenvironm, Danzhou 571737, Hainan, Peoples R China
3.Nova Scotia Agr Coll, Dept Plant & Anim Sci, Truro, NS B2N 5E3, Canada
4.Minist Sustainable Dev Environm & Pk Quebec, Quebec City, PQ G1R 5V7, Canada
5.Guangzhou Univ, Dept Phys, Guangzhou 510006, Guangdong, Peoples R China
关键词: Atmosphere–plant relations;Leaf nutrition;Potassium and nitrogen;Low-input agriculture;Small fruit crop physiology;Strawberry yield
期刊名称:PHOTOSYNTHESIS RESEARCH ( 影响因子:3.573; 五年影响因子:3.674 )
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收录情况: SCI
摘要: Relationships between induced high leaf intercellular CO2 concentrations, leaf K+ and NO3 (-) ion movement and early fruit formation under macronutrient limitation are not well understood. We examined the effects and interactions of reduced K/N input treatments on leaf intercellular CO2, photosynthesis rate, carboxylation and water use efficiency, berry formation as well as leaf/fruit K+, NO3 (-) and photosynthate retention of strawberry (Fragaria x ananassa Duch.) to enhance low-input agriculture. The field study was conducted in Nova Scotia, eastern Canada during 2009-2010. The experimental treatments consisted of five K2O rates (0, 6, 12, 18, and 24 kg ha(-1)) and five N rates (0, 5, 10, 15, and 20 kg ha(-1)), representing respectively, 0, 25, 50, 75, and 100 % of regular macronutrient recommendations based on the soil testing. The treatments were arranged in a split-plot design with three blocks in the field. The cultivar was 'Mira', a June-bearing crop. The results showed that strawberry plants treated with 25 %-reduced inputs could induce significantly higher leaf intercellular CO2 concentrations to improve plant photosynthesis, carboxylation and water use efficiency and translocation of leaf/fruit K+ and dissolved solids, which could advance berry formation by 6 days and produce significantly higher marketable yields (P < 0.05). Higher leaf intercellular CO2 inhibited leaf/fruit NO3 (-) ion retention, but this inhibition did not occur in leaf/fruit K+ retention. Linear interactions of the K/N treatments were significant on fruit marketable yields, intercellular CO2, net photosynthesis, leaf transpiration rates, and leaf temperatures (P < 0.05). It was concluded that higher leaf CO2 could enhance plant photosynthesis, promote plant carboxylation and water use efficiency, and advance berry formation, but it could inhibit leaf NO3 (-) retention. This inhibition did not find in leaf K+ ion and dissolved solid retention. Overlay co-limitation of leaf intercellular CO2 and translocation of leaf/fruit K+/NO3 (-) and total dissolved solids could constrain more fruit formation attributes under full macronutrient supply than reduced inputs. It was suggested that low input would be an optimal and sustainable option for improving small fruit crop physiological development and dealing with macronutrient deficiency challenge.
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