干旱地区农业研究
榦旱地區農業研究
간한지구농업연구
AGRICULTURAL RESEARCH IN THE ARID AREAS
2015年
2期
91-94
,共4页
张延旭%毕银丽%裘浪%郝艳晓%邓穆彪%洪天才%于淼
張延旭%畢銀麗%裘浪%郝豔曉%鄧穆彪%洪天纔%于淼
장연욱%필은려%구랑%학염효%산목표%홍천재%우묘
丛枝菌根真菌%玉米%干旱胁迫%抗旱性
叢枝菌根真菌%玉米%榦旱脅迫%抗旱性
총지균근진균%옥미%간한협박%항한성
arbuscular mycorrhiza fungi%maize%drought stress%drought resistance
采用盆栽试验,研究了水分胁迫下接种丛枝菌根真菌对玉米生长及其抗旱性的影响。结果表明:玉米与丛枝菌根可形成良好的共生关系,接种丛枝菌根显著提高了玉米生物量、株高、地径。与未接菌相比,接菌提高了植株水分利用效率,水分胁迫和正常供水条件下,较对照分别提高117%和24.6%。接菌后玉米叶片 SPAD 值和可溶性蛋白含量增加,叶片过氧化氢酶活性增强。同时,接种菌根显著降低了植株叶片脯氨酸、丙二醛含量,干旱胁迫和正常供水条件下,较未接菌处理分别降低了14.1%、18.9%和59%、69%。由此可见,接种丛枝菌根真菌能够促进玉米的生长,缓解干旱胁迫对玉米生长造成的不利影响,提高了玉米的抗旱性。
採用盆栽試驗,研究瞭水分脅迫下接種叢枝菌根真菌對玉米生長及其抗旱性的影響。結果錶明:玉米與叢枝菌根可形成良好的共生關繫,接種叢枝菌根顯著提高瞭玉米生物量、株高、地徑。與未接菌相比,接菌提高瞭植株水分利用效率,水分脅迫和正常供水條件下,較對照分彆提高117%和24.6%。接菌後玉米葉片 SPAD 值和可溶性蛋白含量增加,葉片過氧化氫酶活性增彊。同時,接種菌根顯著降低瞭植株葉片脯氨痠、丙二醛含量,榦旱脅迫和正常供水條件下,較未接菌處理分彆降低瞭14.1%、18.9%和59%、69%。由此可見,接種叢枝菌根真菌能夠促進玉米的生長,緩解榦旱脅迫對玉米生長造成的不利影響,提高瞭玉米的抗旱性。
채용분재시험,연구료수분협박하접충총지균근진균대옥미생장급기항한성적영향。결과표명:옥미여총지균근가형성량호적공생관계,접충총지균근현저제고료옥미생물량、주고、지경。여미접균상비,접균제고료식주수분이용효솔,수분협박화정상공수조건하,교대조분별제고117%화24.6%。접균후옥미협편 SPAD 치화가용성단백함량증가,협편과양화경매활성증강。동시,접충균근현저강저료식주협편포안산、병이철함량,간한협박화정상공수조건하,교미접균처리분별강저료14.1%、18.9%화59%、69%。유차가견,접충총지균근진균능구촉진옥미적생장,완해간한협박대옥미생장조성적불리영향,제고료옥미적항한성。
A pot experiment was conducted in this research to study the influence of mycorrhiza on maize growth and its drought tolerance under water stress .The results indicated that good symbiosis could be formed between maize and ar-buscular mycorrhizal ,and the inoculation of arbuscular mycorrhizal significantly improved maize biomass ,plant height , and ground diameter .Compared with non-mycorrhizal plants ,the inoculation under drought stress and normal water sup-ply increased plant water use efficiency by 117% and 24 .6% ,respectively .The SPAD value and soluble protein con-tents in maize with inoculation were also increased .In addition ,the inoculation was favorable for the increase of plant catalase activity .Meanwhile ,mycorrhizal inoculation significantly reduced proline and malondialdehyde contents in leaf by 14 .1% and 18 .9% respectively under drought stress ,and 59% and 69% respectively with normal water supply .In conclusion ,arbuscular mycorrhizal fungi could promote the growth of maize ,relieve the adverse impact of drought stress on maize growth ,and improve the drought resistance capability of maize .