不同生长阶段姜根茎发育过程中的源库关系、干物质和淀粉分配

Q4 Agricultural and Biological Sciences

Journal of Plantation Crops Pub Date : 2021-05-26 DOI:10.25081/JPC.2021.V49.I1.7056

K. Krishnamurthy, K. Kandiannan

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引用次数: 0

摘要

研究了三个受欢迎的生姜品种，即IISR Varada、IISR Mahima和IISR Rejatha的源库关系、干物质和淀粉分配、根茎膨胀过程与干物质和玉米淀粉分配的关系以及生长和气体交换参数。结果表明，三个品种的最大分蘖产量和叶面积积累发生在种植后60至120天之间。光合作用速率和激素含量（生长素和细胞分裂素）从90-120DAP增加，在120DAP达到峰值，然后开始下降。生物量分配数据显示，生姜的活性生物量积累阶段在60~150DAP之间。根状茎干物质积累模式还表明，在所有三个品种中，根状茎中干物质积累的最大值也出现在60至150DAP之间。淀粉在根茎中的最大积累也发生在同一时期。这些结果表明，生姜的根茎膨胀过程大多发生在60至150 DAP之间。根状茎的总生物量积累、干物质积累和淀粉积累趋势相似。

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Source sink relationship, dry matter and starch partitioning in developing ginger rhizomes during different growth stages

Source sink relationship, dry matter and starch partitioning, rhizome bulking process in relation to dry matter and starch partitioning in developing rhizomes and growth and gas exchange parameters were studied in three popular varieties of ginger viz., IISR Varada, IISR Mahima and IISR Rejatha. Results revealed that maximum tiller production and leaf area accumulation occurred between 60 and 120 days after planting (DAP) in all three varieties. Photosynthetic rate and hormone contents (auxin and cytokinin) increased from 90-120 DAP, peaked at 120 DAP and then started declining. Biomass partitioning data revealed that the active biomass accumulation stage was between 60 and 150 DAP in ginger. The dry matter accumulation pattern in rhizomes also revealed that maximum dry matter accumulation in rhizomes also occurred between 60 and 150 DAP in all the three varieties. Maximum starch accumulation in the rhizomes also occurred during the same period. These results suggest that most of the rhizome bulking process occurred between 60 and 150 DAP in ginger. Total biomass accumulation, dry matter accumulation and starch accumulation in rhizomes followed similar trends.

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来源期刊

Journal of Plantation Crops Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

0.60

自引率

0.00%

发文量