江苏农业学报
江囌農業學報
강소농업학보
JIANGSU JOURNAL OF AGRICULTURAL SCIENCES
2009年
6期
1207-1212
,共6页
李霞%王超%任承刚%戴传超
李霞%王超%任承剛%戴傳超
리하%왕초%임승강%대전초
水稻%内生真菌%氮肥%水稻产量
水稻%內生真菌%氮肥%水稻產量
수도%내생진균%담비%수도산량
rice%endophytic fungus%nitrogen fer-tilizer%yield of rice
以转玉米磷酸烯醇式丙酮酸羧化酶基因(PEPC)水稻(PC)、未转基因野生型水稻(Kitaake)、H137和JAAS45为材料,在移栽前24 h接入植物内生真菌B3的菌液,在大田栽培条件下,研究了不同施纯氮量[150.0kg/hm~2(LN)、187.5 kg/hm~2(MN)、225.0 kg/hm~2(HN)]对供试水稻植株在返青期、分蘖期、拔节期和开花后的生长和生理指标及产量构成因子的影响.结果表明:与CK+HN(未施B3且施人225.0 kg/hm~2)相比,B3+HN处理供试水稻返青期叶片生长较快,分蘖较多,拔节期干物质累积较快,从而表现产量增加;而在B3+MN处理中,B3通过增加分蘖与维持叶片光合功能而使供试水稻与对照产量相近,保持产量相对稳定,表明水稻施用B3可以起到减少田间纯氮施入量的效果.
以轉玉米燐痠烯醇式丙酮痠羧化酶基因(PEPC)水稻(PC)、未轉基因野生型水稻(Kitaake)、H137和JAAS45為材料,在移栽前24 h接入植物內生真菌B3的菌液,在大田栽培條件下,研究瞭不同施純氮量[150.0kg/hm~2(LN)、187.5 kg/hm~2(MN)、225.0 kg/hm~2(HN)]對供試水稻植株在返青期、分蘗期、拔節期和開花後的生長和生理指標及產量構成因子的影響.結果錶明:與CK+HN(未施B3且施人225.0 kg/hm~2)相比,B3+HN處理供試水稻返青期葉片生長較快,分蘗較多,拔節期榦物質纍積較快,從而錶現產量增加;而在B3+MN處理中,B3通過增加分蘗與維持葉片光閤功能而使供試水稻與對照產量相近,保持產量相對穩定,錶明水稻施用B3可以起到減少田間純氮施入量的效果.
이전옥미린산희순식병동산최화매기인(PEPC)수도(PC)、미전기인야생형수도(Kitaake)、H137화JAAS45위재료,재이재전24 h접입식물내생진균B3적균액,재대전재배조건하,연구료불동시순담량[150.0kg/hm~2(LN)、187.5 kg/hm~2(MN)、225.0 kg/hm~2(HN)]대공시수도식주재반청기、분얼기、발절기화개화후적생장화생리지표급산량구성인자적영향.결과표명:여CK+HN(미시B3차시인225.0 kg/hm~2)상비,B3+HN처리공시수도반청기협편생장교쾌,분얼교다,발절기간물질루적교쾌,종이표현산량증가;이재B3+MN처리중,B3통과증가분얼여유지협편광합공능이사공시수도여대조산량상근,보지산량상대은정,표명수도시용B3가이기도감소전간순담시입량적효과.
Using the PEPC transgenic rice (PC), untransformed wild type rice ( Kiaake), H137 and JAAS 45 rice plants as materials, the seedlings of rice plants were treated by adding endophytic fungus B3 for 24 h and transplanted in the field. The growth and physiological indexes of the rice plants were determined at seedling stage ,tillering stage,jointing stage and heading stage at different nitrogen fertilizer application rates [ 150. 0 kg/hm~2 ( LN ), 187.5 kg/hm~2 ( MN ), 225.0kg/hm~2 (HN) ]. The yield components in rice were also studied after harvesting. The results showed that,as compared with the control ,CK + HN ,more leaves at seedling stage,more tillers and more dry weight at jointing stage in the rice plant under B3 + HN treatment appeared and also high yields of these rice were exhibited in the field. In B3 + MN treatment, stable yield was kept, which were related to more tillers and higher P_n. It suggested that the treatment of B3 in rice plant substitute partially the nitrogen fertilizer in the field.
