不同生育期遮光对水稻生长发育和产量形成的影响

研究了不同生育期遮光45%(水稻生长的前期、中1期、中2期、后期)对水稻形态发育、光合产物积累、稻株养分含量、产量构成等的影响,并重点研究了植株对N、P、K养分的吸收规律。结果表明,各期遮光后均使干物质积累速率降低,植株N、P、K养分吸收量减少,对产量有不同程度的影响,但植株体内N、P、K养分含量上升。前期遮光主要使分蘖数急剧下降,有效穗数减少,叶面积系数下降,产量下降11.56%,但株高增加;中1期遮光后对水稻生长影响不大,产量仅降低5.46%;中2期遮光主要使每穗粒数和千粒重下降,对产量影响较大,降低幅度达30.80%;后期遮光主要影响结实粒和千粒重,其产量最低,降低55.40%.文中还对弱光照条件下的生育期安排和施肥决策提出了建议.     

不同基因型玉米间作对叶片衰老、籽粒产量和品质的影响

 采用大田试验, 研究了不同基因型玉米(Zea mays)间作对叶片衰老、籽粒产量和品质的影响。结果表明, ‘豫玉19’(YY19)与‘周单 041’(ZD041)、‘郑单958’(ZD958)与‘鲁单981’(LD981)间作, 可提高叶片超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)的活 性, 降低丙二醛(MDA)含量, 延缓叶片衰老。具体表现为, 在吐丝后10 d, 4个玉米品种叶片中的SOD和POD活性均有所提高或显著提高, ZD041和 ZD958叶片中的CAT活性提高或显著提高, YY19和LD981变化不显著; 4个玉米品种叶片中的MDA含量降低。在吐丝后40 d, SOD和POD活性及MDA含 量的变化与吐丝后10 d基本一致, CAT活性均有所提高, 其中以YY19较为显著。研究还表明, 间作增加了复合群体产量, 土地当量比(Land equivalent ratio, LER)均大于1, 籽粒品质也有所改善。     

不同品种小豆光合作用和生长发育对弱光的响应

为确定小豆作为林果行间套种作物的适宜性,通过田间试验和盆栽试验,测定全光和弱光处理(全光的48%)下3个小豆品种(阜南绿小豆、早熟黑小豆、晚熟黑小豆)在初花期的叶片光合特征参数、光合色素含量和RuBPCase活性,研究小豆生长发育对弱光的响应.结果表明: 弱光使3个品种小豆叶片的最大净光合速率、光饱和点、光补偿点等光合参数不同程度地向耐荫的方向变化,净光合速率、水分利用效率和RuBPCase活性也显著下降;遮阴后,阜南绿小豆的叶绿素a和b含量显著增加,Chl a/b和类胡萝卜素含量显著降低,其他小豆的叶绿素和类胡萝卜素含量无明显变化;弱光使3个品种小豆的生物量和干物质积累效率降低,根冠比降低,根瘤量减少,叶片数和叶面积指数减小;弱光胁迫下,阜南绿小豆提前开花、提前成熟,早熟黑小豆推迟开花、延迟成熟,而晚熟黑小豆只开花不结实.从遮阴后小豆的光合特性变化和生长发育差异等方面综合考虑,3个小豆品种的耐阴能力大小为:阜南绿小豆>早熟黑小豆>晚熟黑小豆.     

干旱对东北春玉米生长发育和产量的影响

选取玉米品种丹玉39为供试材料,利用大型农田水分控制试验场,采用大田池栽方式,在玉米三叶-拔节期、拔节-吐丝期、吐丝-乳熟期分别开展中度干旱胁迫及复水控制对比试验,分析3个关键生育时期干旱胁迫对春玉米生长发育和产量的影响.结果表明:与水分适宜对照(CK)相比,三叶-拔节期遭受干旱胁迫后,全生育期推迟13 d,至拔节普遍期,株高偏低29.8％,叶面积偏小41.2％,复水后,株高和产量得到较大程度恢复,果穗性状和最终产量差异不大;拔节-吐丝期遭受干旱胁迫后,全生育期缩短7d,至吐丝普遍期,株高偏低18.6％,叶面积偏小14.1％,果穗长、穗粒数、果穗干质量、穗粒质量分别下降6.9％、19.1％、28.1％和29.4％,空秆率增加13.3％;吐丝-乳熟期遭受干旱胁迫后,全生育期缩短15 d,生长至乳熟普遍期,株高偏低2.3％,叶面积偏小37.3％,果穗长、穗粒数、果穗干质量、穗粒质量分别下降9.2％、24.1％、30.8％和27.9％,空秆率增加24.5％.拔节-吐丝期、吐丝-乳熟期干旱胁迫处理并复水后,玉米株高恢复不明显,产量降幅显著.     

干旱对东北春玉米生长发育和产量的影响

选取玉米品种丹玉39为供试材料,利用大型农田水分控制试验场,采用大田池栽方式,在玉米三叶-拔节期、拔节-吐丝期、吐丝-乳熟期分别开展中度干旱胁迫及复水控制对比试验,分析3个关键生育时期干旱胁迫对春玉米生长发育和产量的影响.结果表明：与水分适宜对照（CK）相比,三叶-拔节期遭受干旱胁迫后,全生育期推迟13 d,至拔节普遍期,株高偏低29.8%,叶面积偏小41.2%,复水后,株高和产量得到较大程度恢复,果穗性状和最终产量差异不大;拔节-吐丝期遭受干旱胁迫后,全生育期缩短7 d,至吐丝普遍期,株高偏低18.6%,叶面积偏小14.1%,果穗长、穗粒数、果穗干质量、穗粒质量分别下降6.9%、19.1%、28.1%和29.4%,空秆率增加13.3%;吐丝-乳熟期遭受干旱胁迫后,全生育期缩短15 d,生长至乳熟普遍期,株高偏低2.3%,叶面积偏小37.3%,果穗长、穗粒数、果穗干质量、穗粒质量分别下降9.2%、24.1%、30.8%和27.9%,空秆率增加24.5%.拔节-吐丝期、吐丝-乳熟期干旱胁迫处理并复水后,玉米株高恢复不明显,产量降幅显著.     

不同播期对不同基因型油菜产量特性的影响

研究了 3个不同基因型油菜品种的产量与产量构成因素的特征及其与光温条件的生态关系 ,探讨了长江中游油菜区多熟种植条件下提高油菜单产的可行途径 .结果表明 ,因播种期不同而导致油菜生育期间光温条件的不同 ,使各播期产量及产量构成因素产生了较大的差异 .油菜单株角果数、角果皮指数、主茎产量、分枝产量均与积温和日照时数呈极显著正相关 ,而千粒重和SNPA与之无关 .播种期对油菜产量的影响主要是通过影响分枝产生及其产量形成而实现的 .因此多熟制油菜的播种期可适当提早 ,10月 2 0日以后播种的油菜 ,其种植密度可增加至 3 75× 10 5～ 4 5× 10 5株·hm-2 ,以主茎弥补分枝小而少的不足 ,实现油菜单产的提高 .     

低锌和缺锌对玉米生长发育的影响

以玉米沈单10号为材料,用溶液培养的方法研究了缺锌、低锌和正常供锌对玉米生长发育的影响,进一步明确了一定量低锌比缺锌对玉米的伤害更大,并对其POD、SOD、CAT同工酶谱及蛋白质表达进行了分析、结果表明：一定浓度的低锌培养使玉米生长受抑及受害最重,且地上部分比地下部分更敏感。低锌和缺锌处理时3种同工酶的酶谱和蛋白表达与正常供锌时均有明显的差异,尤其在一定量低锌浓度时,有些同工酶的表达增强或被特异性诱导,而另一些酶的合成受阻;低锌和缺锌处理都诱导出了新的蛋白组分,也缺失了部分蛋白组分,且低锌比缺锌时缺失的蛋白组分更多。这些变化可能与玉米生长发育及受害密切相关。     

不同基因型玉米间作的群体质量

采用大田试验,研究了不同基因型玉米间作的群体质量特征.结果表明,HF9‖XD20间作,植株中部叶片平均叶龄延长,而对下部和上部叶片影响不大;ZD958‖LD981间作,ZD958植株下部叶片平均叶龄延长,而中、上部叶片则缩短,LD981植株下、中、上部叶片平均叶龄均有所延长.吐丝前,群体叶面积指数(LAI)单间作无明显差异,吐丝后,HF9和LD981的LAI分别大于和显著大于单作群体,而ZD958和XD20则分别小于和显著小于单作群体.紧凑型品种和半紧凑型品种间作增加了群体透光率,吐丝后10d,4个品种棒三叶叶色值(SPADR)均有所增加,并且除ZD958外,其余3个品种棒三叶净光合速率均有所增加,其中LD981增加显著.间作对吐丝以前的群体干物质积累量影响不大,吐丝后,半紧凑型品种(HF9和LD981)的干物质积累量增加,其中LD981增加显著,而紧凑型品种(XD20和ZD958)的干物质积累量减少,其中ZD958显著减少;间作还提高了收获指数,并且两种间作群体的土地当量比(LER)均大于1.结果提示,紧凑型与半紧凑型玉米品种的间作可以提高群体质量,延长叶片功能期,提高光合效率,增加籽粒产量.     

土壤水分胁迫对玉米形态发育及产量的影响

未来气候变化可能加剧的干旱化将对我国主要粮食和最重要的饲料作物玉米产生严重影响。为增进玉米对干旱化响应与适应的理解及制定应对策略 ,利用大型活动遮雨棚及池栽对玉米进行了全程水分控制试验研究。对不同土壤水分胁迫下的玉米形态表征、生长发育及产量的分析表明 ,玉米受干旱胁迫的影响程度因受旱轻重、持续时间以及生育进程的不同而不同 ,受旱越重 ,持续时间越长 ,影响越甚。大喇叭口期前 ,玉米株高和生物产量受有限供水或轻度干旱影响不算很大 ,但从大喇叭口期后直至抽雄和灌浆期 ,轻度干旱胁迫持续久了也会对株高和生物产量产生较大不良影响。严重干旱胁迫则从拔节始至灌浆期均对株高和生物产量影响更为不利。进而引起果穗性状恶化 ,穗粒数和百粒重减小 ,最终导致经济产量大幅下降。说明玉米生育前期(大喇叭口期前 )进行有限的控水可行。而玉米生育前期干旱胁迫将使生育进程明显延缓 ,严重干旱胁迫可使抽雄、吐丝期较水分充足滞后 4 d左右 ,并引起成熟期推迟     

1,2,4-三氯苯胁迫对不同基因型水稻灌浆期生理特性及产量的影响

在盆栽土培条件下,研究了5种浓度(0、10、20、40、80 mg/kg土)的1,2,4-三氯苯(TCB)对两种基因型水稻品种宁粳1号(敏感基因型)和扬辐粳8号(耐性基因型)产量及灌浆期生理特性的影响。结果表明:TCB对两种基因型水稻产量和灌浆期生理特性的影响具有显著差异,随着TCB浓度的增加,宁粳1号的产量呈现递减趋势,而扬辐粳8号呈低浓度下产量增加高浓度下产量显著降低的趋势,在中高浓度TCB(40、80 mg/kg)处理时,宁粳1号每盆穗数,每穗粒数,结实率显著降低且降幅显著大于扬辐粳8号,两个基因型品种千粒重变化都不明显。宁粳1号株高、干物重受TCB抑制程度较明显,降幅显著大于扬辐粳8号。在低浓度TCB(20 mg/kg)处理时,宁粳1号根系活力、叶绿素含量、可溶性蛋白质含量显著降低,而扬辐粳8号有所提高。随着TCB浓度的增加,两个基因型品种叶片抗氧化酶SOD、POD、CAT活性均呈先升后降趋势,且在低浓度TCB(10 mg/kg、20mg/kg)处理时,扬辐粳8号抗氧化酶活性极显著高于宁粳1号,在高浓度TCB(80 mg/kg)TCB浓度胁迫下,宁粳1号抗氧化酶活性极显著低于对照,且降幅极显著大于扬辐粳8号,且MDA含量增幅较大,膜质过氧化程度高。总体而言,低浓度TCB对扬辐粳8号的产量和灌浆期株高、干物重、叶绿素含量、叶片蛋白质含量和抗氧化酶活性具有一定的促进作用,中高浓度TCB对宁粳1号的抑制作用显著大于扬辐粳8号,扬辐粳8号在不同浓度的TCB处理下较宁粳1号表现出较强的耐迫性和适应性。     

花粒期光照对夏玉米光合特性和叶绿体超微结构的影响

在大田条件下,以夏玉米品种‘登海605’为试验材料,研究花粒期不同光照强度(正常光照、开花至收获期遮阴和开花至收获期增光)对夏玉米叶片光合、荧光性能和叶绿体超微结构的影响.结果表明:与对照相比,花粒期遮阴影响叶绿体排布及内部结构发育,基粒个数和基粒片层数均有不同程度减少,叶片的净光合速率、蒸腾速率、气孔导度、叶绿素含量下降,PSⅡ反应中心的实际光化学效率和最大光化学效率降低,非光化学淬灭系数数值增加,导致产量降低;增光后叶绿体结构良好,基粒片层排列紧致、清晰且数量增加,PSⅡ反应中心的实际光化学效率增加,净光合速率、蒸腾速率、气孔导度、叶绿素含量上升,叶片光合性能增强,产量增加.即花粒期遮阴破坏了夏玉米叶片叶绿体超微结构,降低了叶片光合能力,产量下降;花粒期增光增加了叶肉细胞中叶绿体的基粒和基粒片层,导致基粒片层排列紧密有序,有利于增加作物产量潜力.     

基于分期播种的气候变化对东北地区玉米(Zea mays)生长发育和产量的影响

利用在东北地区中部开展玉米(Zea mays)分期播种试验资料,分析气候变化对玉米出苗速度、生长发育速度、灌浆过程、植株干物质积累和产量的影响,进而分析未来气候变化对东北地区玉米生产的影响及适应性对策.结果表明,气候变化对玉米生长发育和产量的影响十分明显,在水分基本适宜的条件下,东北地区气候变暖导致玉米生长季气温升高、积温增加,使玉米生长发育和灌浆速度加快,生物量增加,从而提高单产.但气候变暖的同时,气候变干会限制热量资源的利用,将缩短玉米灌浆时间,降低灌浆速率,使千粒重下降,从而造成明显减产,而且减产幅度明显大于温度升高的增产幅度.在水分条件基本得到满足的条件下,未来夏半年气候变暖对东北地区玉米生产是有利的,偏晚熟玉米品种比例可以适当扩大,东北玉米带可以向北部和东部扩展,单产和总产都会增加;但如果水分得不到满足,气候的暖干化趋势会使东北地区的中、西部玉米主产区的农业干旱变得更加严重且频繁,造成产量下降和不稳定,给玉米生产带来严重威胁,因而更应加强农业干旱的综合防御工作.     

Environmental effects on the early stages of tassel morphogenesis in maize (Zea mays L.)

The effects of various environmental conditions on the initiation of tassel branches (NTB) and spikelet‐pairs (NSP) were examined in the stress‐sensitive maize inbred F53. Chilling induced the most important effect, with a dramatic decrease in both NTB and NSP, provided it was applied at the end of the vegetative phase and start of the floral transition phase. The primary cause of chilling‐induced abortion of the tassel branches could be oxidative stress in the leaves, since lowering light irradiance during chilling greatly reduced the effect of cold. The comparison of inbreds F53 and F2 revealed that both genotypes exhibited a similar period of cold sensitivity at the floral transition phase, although F2 was considered from field observations as a stress‐insensitive genotype (at least for tassel development). However, our results also showed a chilling acclimation response in inbred F2 but not in inbred F53. The similarities with the work by Lejeune & Bernier (1996 Plant, Cell and Environment 19, 217–224.) concerning the effect of chilling on ear initiation in the sensitive inbred, B22, are emphasized.     

高产玉米叶片冗余及其对产量和光合特性的影响

为探明高产玉米群体是否存在叶片冗余现象,根据2007年15000株·hm^-2密度下的产量结果,筛选出低密度条件下的冗余类型(超试1号)和非冗余类型(超试3号),2008年将两品种在各自最适密度的高产条件下进行开花期整株剪叶1/2（T₁）和1/4（T₂）处理,以其地上部干物质积累量和籽粒产量的变化来证实叶片冗余现象的存在;以Richards模型拟合籽粒灌浆过程;以穗位叶光合特征参数和叶绿素荧光参数来评价去除冗余叶片后光合生理特性的变化.结果表明：不同冗余类型的两个玉米品种,在最适密度的高产条件下都存在叶片冗余现象;适当去除玉米群体冗余叶片可以延长植株活跃灌浆时间,有利于获得较高籽粒产量;去除冗余叶片提高了玉米穗位叶净光合速率和光能利用效率.     

Phytotoxic effect of oxadiargyl on germination and early growth of sunflower (Helianthus annuus L.) and maize (Zea mays L.)

An attempt was made to assess the phytotoxicity of oxadiargyl on two crop plants, viz. sunflower and maize. The seed germination and early growth studies were carried out in hydroponic conditions with each variety of two crop plants, viz. sunflower (Morden) and maize (NAC-6004) supplemented with five concentrations of oxadiargyl. Seed germination and early growth of both the crop plants were significantly affected with increased concentration of oxadiargyl. The length of radicle and plumule was severely reduced along with increase in herbicidal concentration. Similarly, the calculated value of tolerance index and vigour index decreased drastically with increase in concentration of oxadiargyl. On the contrary, the per cent phytotoxicity also increased with increase in oxadiargyl concentration. Further, the pigment system of both the crop seedlings was severely affected by the herbicide oxadiargyl. These studies clearly indicate that oxadiargyl is phototoxic in nature.     

不同生育时期遮光对马铃薯光合特性和产量的影响

为了研究不同生育时期遮光对马铃薯光合特性和产量的影响,明确马铃薯不同生育时期对弱光的耐受性,对2个马铃薯品种(‘冀张薯12号'和‘冀张薯8号')进行了4个生育时期(苗期、苗期至现蕾期、现蕾期至开花初期、开花初期至收获期)和3个遮光度(不遮光对照、20%遮光率和50%遮光率)的处理试验。结果表明: 与不遮光处理相比,20%遮光率下,2个品种马铃薯苗期SPAD值显著降低,苗期至现蕾期、现蕾期至开花初期SPAD值无显著变化,开花初期遮光15 d可使SPAD值呈一定程度增加;50%遮光率下,2个品种马铃薯SPAD值变化趋势与前者相同,除开花初期增幅加大外,其他生育时期变化幅度接近。各时期遮光对马铃薯叶片气孔导度(g_s)影响不大,除50%遮光率下‘冀张薯8号'叶片g_s在开花初期较对照显著降低43.9%外,其他处理的g_s与对照均无显著差异。遮光后叶片胞间CO₂浓度(C_i)呈增加趋势,苗期、苗期至现蕾期50%遮光可使C_i显著增加,其余各时期的C_i无显著变化。4个时期遮光处理的叶片净光合速率(P_n)均降低,2个品种马铃薯叶片P_n在50%遮光处理下的降幅均大于20%遮光处理,‘冀张薯12号'除在苗期遮光处理的叶片P_n降幅大于‘冀张薯8号'外,其余时期的降幅均小于‘冀张薯8号'。4个时期遮光使马铃薯产量均降低,且50%遮光处理降幅大于20%遮光处理。‘冀张薯12号'在苗期不耐弱光,其余时期的耐弱光能力优于‘冀张薯8号'。综合分析表明,耐弱光能力强的品种遮光处理后,叶片P_n和g_s降幅小、C_i增幅小,产量降幅也小。     

Root cortical aerenchyma improves the drought tolerance of maize (Zea mays L.)

Root cortical aerenchyma (RCA) reduces root respiration in maize by converting living cortical tissue to air volume. We hypothesized that RCA increases drought tolerance by reducing root metabolic costs, permitting greater root growth and water acquisition from drying soil. To test this hypothesis, recombinant inbred lines with high and low RCA were observed under water stress in the field and in soil mesocosms in a greenhouse. In the field, lines with high RCA had 30% more shoot biomass at flowering compared with lines with low RCA under water stress. Root length density in deep soil was significantly greater in the high RCA lines compared with the low RCA lines. Mid‐day leaf relative water content in the high RCA lines was 10% greater than in the low RCA lines under water stress. The high RCA lines averaged eight times the yield of the low RCA lines under water stress. In mesocosms, high RCA lines had less seminal root respiration, deeper rooting, and greater shoot biomass compared with low RCA lines under water stress. These results support the hypothesis that RCA is beneficial for drought tolerance in maize by reducing the metabolic cost of soil exploration.     

The effect of soil aggregate size on early shoot and root growth of maize (Zea mays L.)

Differences in plant growth arising from differences in aggregate size in the seedbed are normally atributed to limitations in nutrient or water supply during the early growth period. This study was initiated to determine if these were the only mechanisms by which aggregate size influences plant response. Four different aggregate size fractions (less than 1.6 mm, 1.6 to 3.2 mm, 3.2 to 6.4 mm and 6.4 to 12.8 mm diameter) were sieved from a silt loam soil. Nutrients were added to the soil and maize was grown in the aggregates for eighteen days after seedling emergence. Soil matric potential was maintained between — 3 and −20 kPa. Shoot dry weight declined by 18% as aggregate size increased from less than 1.6 mm to 1.6–3.2 mm. There was little further decline as aggregate size increased to 6.4–12.8 mm. Final leaf area showed a similar decline. The availability of nutrients or water were not limiting. Total root length in the coarsest aggregate system was less than 60% of that in the finest system. Main axes of seminal and nodal roots were longer in the coarser aggregate systems, the length of primary laterals was not affected, and length of secondary laterals was lower in the coarser systems. A greater proportion of the roots penetrated the larger aggregates than the smaller aggregates; however, the larger aggregates offered greater resistance to penetration by a rigid micropenetrometer (150 μ diameter probe). Diameter of the main axes roots were greatest in the largest two aggregate fractions. it is speculated that a combination of increased endogenous ethylene in roots in the finest aggregate system due to entrapment by water and increased mechanical resistance in the coarsest aggregate system accounts for the observed effects on root norphology.     

阴湿环境对玉米杂交种生长发育特性的影响

比较了在人工遮光增湿环境和自然环境下18个玉米杂交种生长发育特性的差异,研究了阴湿环境对玉米杂交种生长发育特性的影响.结果表明: 遮光增湿环境使空气湿度比自然环境增加15.0%～16.4%,土壤湿度增加27.0%～78.4%,光照强度降低72.9%～77.9%,光量子减少72.8%～79.6%,差异均达显著或极显著水平,但不影响环境温度.阴湿环境导致玉米植株第7叶宽、有效功能叶数、成株叶片数、雄穗分枝数、茎粗、株高、穗位高、穗长、穗粗、穗行数、行粒数、百粒重和单株粒重13个性状表现为负向变异(表型值变小),其中单株粒重降幅达72.3%,株高降幅7.1%,其余性状降幅介于14.8%～53.8%之间;第7叶长、第7叶长宽比、散粉至抽丝间隔天数(ASI)、小斑病指数和纹枯病指数等5个性状表现为正向变异(表型值增大),分别增大39.8%、80.5%、114.3%、73.0%和54.8%.用ASI、雄穗分枝数、成株叶片数、株高、单株粒重、小斑病指数和纹枯病指数7个性状计算出的综合耐阴湿系数作为玉米杂交种耐阴湿鉴定的指标,具有一定的可靠性,且简便易行.运用该指标可将18个杂交种划分为耐阴湿性强、耐阴湿性中等和耐阴湿性弱3类.