中国水稻科学
中國水稻科學
중국수도과학
Chinese Journal of Rice Science
2015年
6期
619-627
,共9页
徐春梅%谢涛%王丹英%陈松%计成林%章秀福%石庆华
徐春梅%謝濤%王丹英%陳鬆%計成林%章秀福%石慶華
서춘매%사도%왕단영%진송%계성림%장수복%석경화
根际氧浓度%水稻%品种%营养元素%根系形态
根際氧濃度%水稻%品種%營養元素%根繫形態
근제양농도%수도%품충%영양원소%근계형태
rhizosphere oxygen concentration%rice%cultivar%nutrient element%root morphology
以秀水09和春优84为材料,利用在线溶氧仪(氧气、氮气调节)设置4个氧浓度(低氧,0~1 mg/L;中氧,2.5~3.5 mg/L;高氧,>6 mg/L,即饱和溶解氧处理,在水稻生长过程中用充气泵连续向水体中充入空气;CK,常规水培,不进行氧调节),研究根际氧浓度对水稻幼苗生物量、养分吸收、积累以及根系形态的影响,探讨根际氧浓度变化情况下两个水稻品种幼苗养分吸收、积累和根系形态的差异.结果表明,与 O 2浓度正常水平(对照)相比,中氧处理增加两个水稻品种幼苗根系、茎叶和总生物量.秀水09分别增加30.30%、32.96%和32.46%;春优84分别增加7.01%、1.77%和9.17%;高氧处理减少两个水稻品种幼苗根系、茎叶和总生物量,秀水09分别减少35.35%、15.62%和17.76%;春优84分别减少43.95%,18.92%和21.34%.低氧处理增加供试品种的根冠比.中氧处理增加两个水稻品种的 N、P、K、Mn、Mg 和 Ca 的吸收累积总量,低氧处理增加其 Fe、Cu 和 Zn 的吸收累积总量.中氧处理增加两个供试品种幼苗根系总根长、表面积、总根尖数和细根比例,降低幼苗粗根比例,有利于水稻幼苗对养分的吸收,使部分营养元素含量增加.同时,中氧处理对水稻幼苗生物量、养分吸收、积累、分配和根系形态的影响存在显著品种差异.
以秀水09和春優84為材料,利用在線溶氧儀(氧氣、氮氣調節)設置4箇氧濃度(低氧,0~1 mg/L;中氧,2.5~3.5 mg/L;高氧,>6 mg/L,即飽和溶解氧處理,在水稻生長過程中用充氣泵連續嚮水體中充入空氣;CK,常規水培,不進行氧調節),研究根際氧濃度對水稻幼苗生物量、養分吸收、積纍以及根繫形態的影響,探討根際氧濃度變化情況下兩箇水稻品種幼苗養分吸收、積纍和根繫形態的差異.結果錶明,與 O 2濃度正常水平(對照)相比,中氧處理增加兩箇水稻品種幼苗根繫、莖葉和總生物量.秀水09分彆增加30.30%、32.96%和32.46%;春優84分彆增加7.01%、1.77%和9.17%;高氧處理減少兩箇水稻品種幼苗根繫、莖葉和總生物量,秀水09分彆減少35.35%、15.62%和17.76%;春優84分彆減少43.95%,18.92%和21.34%.低氧處理增加供試品種的根冠比.中氧處理增加兩箇水稻品種的 N、P、K、Mn、Mg 和 Ca 的吸收纍積總量,低氧處理增加其 Fe、Cu 和 Zn 的吸收纍積總量.中氧處理增加兩箇供試品種幼苗根繫總根長、錶麵積、總根尖數和細根比例,降低幼苗粗根比例,有利于水稻幼苗對養分的吸收,使部分營養元素含量增加.同時,中氧處理對水稻幼苗生物量、養分吸收、積纍、分配和根繫形態的影響存在顯著品種差異.
이수수09화춘우84위재료,이용재선용양의(양기、담기조절)설치4개양농도(저양,0~1 mg/L;중양,2.5~3.5 mg/L;고양,>6 mg/L,즉포화용해양처리,재수도생장과정중용충기빙련속향수체중충입공기;CK,상규수배,불진행양조절),연구근제양농도대수도유묘생물량、양분흡수、적루이급근계형태적영향,탐토근제양농도변화정황하량개수도품충유묘양분흡수、적루화근계형태적차이.결과표명,여 O 2농도정상수평(대조)상비,중양처리증가량개수도품충유묘근계、경협화총생물량.수수09분별증가30.30%、32.96%화32.46%;춘우84분별증가7.01%、1.77%화9.17%;고양처리감소량개수도품충유묘근계、경협화총생물량,수수09분별감소35.35%、15.62%화17.76%;춘우84분별감소43.95%,18.92%화21.34%.저양처리증가공시품충적근관비.중양처리증가량개수도품충적 N、P、K、Mn、Mg 화 Ca 적흡수루적총량,저양처리증가기 Fe、Cu 화 Zn 적흡수루적총량.중양처리증가량개공시품충유묘근계총근장、표면적、총근첨수화세근비례,강저유묘조근비례,유리우수도유묘대양분적흡수,사부분영양원소함량증가.동시,중양처리대수도유묘생물량、양분흡수、적루、분배화근계형태적영향존재현저품충차이.
A hydroponic experiment was conducted to study the effects of rhizosphere oxygen concentration on rice seedling biomass,nutrient absorption and accumulation,and root morphology with Xiushui 09 and Chunyou 84 as material.With an online dissolved oxygen meter,four dissolved oxygen (DOTs )levels were set including low oxygen concentration(DOT 0 to 1 .0 mg/L),medium oxygen concentration(DOT 2.5 to 3.5 mg/L),high oxygen concentration (DOT >6 mg/L,continuous bubbling with atmospheric air)and control (conventional hydroponics,without oxygen regulation).The results showed that compared with the control,the root,shoot and total dry weights increased by 30.30%,32.96% and 32.46% for Xiushui 09 and by 7.01 %,1 .77% and 9.1 7% for Chunyou 84,respectively under the medium oxygen concentration;under high oxygen contentration,the root,shoot and total dry weights decreased by 35.35 %,1 5 .62% and 1 7.76% for Xiushui 09 and by 43.95 %,18.92% and 21 .34% for Chunyou 84,respectively.The root to shoot ratios increased under low oxygen treatment.The total absorption and accumulation of N,P,K,Mn,Mg and Ca increased under the medium oxygen treatment,and the total absorption and accumulation of Fe,Cu and Zn increased under the low oxygen treatment.The root tip numbers,length and surface area,the proportion of fine roots also increased and the coarse root decreased under the medium oxygen treatment.Under the medium oxygen treatment, the proportion of fine roots increased,which contributes to nutrient uptake.This might be one of the main reasons for the increase in some element concentrations.The biomass, nutrient concentration, and accumulation, and root morphology obviously varied with cultivar.