磷肥对花生根系形态、生理特性及产量的影响

采用池栽, 测定不同施磷量对花生(Arachis hypogaea)根系性状、生理特性及产量的影响。结果表明: (1)结荚中期, 根系总长度、体积、表面积及根尖数量均随施磷量的增加而增加, 在施磷30-90 kg·hm^-2范围内, 施磷比不施磷4项指标分别增加3.5%-20.7%、9.3%-21.9%、9.7%-20.3%和12.6%-21.4%。特别是当施磷量超过60 kg·hm^-2时, 上述4项指标均显著高于不施磷处理; 施磷可使根系中超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT) 3种酶活性分别提高12.7%-20.6%、14.8%-36.8%和17.0%-41.8%, 丙二醛(MDA)含量降低8.4%-19.5%, 根系活力和可溶性蛋白含量分别提高10.4%-25.0%、29.2%-53.5%; 同时, 施磷可使单株根瘤数量和鲜重分别增加10.7%-21.7%和22.6%-35.6%。(2)收获期, 除MDA含量随施磷量的增加而增加, SOD、POD和CAT活性, 根系活力和可溶性蛋白含量均随施磷量增加而呈降低趋势, 但多数指标施磷与不施磷及不同施磷量之间差异不显著。造成这一现象的原因与施磷后花生荚果库容增大, 对光合产物需求量增加, 导致植株和根系营养不良, 加速衰老有关。(3)花生单株结果数、生物产量、经济系数、出米率及产量均随施磷量的增加而增加, 其中产量的增加主要是通过生物产量和经济系数协同提高来实现的。     

不同施氮水平下丛枝菌根真菌对藜麦生长和根系生理特征的影响

采用盆栽实验,以藜麦品种‘亿隆1号’为实验材料,探究在不同施氮量(纯氮用分别为0、0.2、0.4和0.6g/kg)接种2种丛枝菌根真菌(AM)即摩西球囊霉(Gm)和扭形球囊霉(Gt)对藜麦及其根系生长指标以及生理指标的影响,为提高氮肥利用率提供理论依据。结果表明:(1)在0.4g/kg施氮量下,接种Gm藜麦根系侵染率和菌根依赖性最大。(2)同一接种处理下,藜麦株高、基径、叶面积、地上部生物量、总根长等根系生长指标,以及根系抗氧化酶活性均随施氮量的增加呈先增加后减小的趋势;与未接种处理相比,接种AM真菌后上述各指标均显著增加,均在0.4g/kg施氮量下达到最大值,且接种Gm的增幅大于接种Gt。(3)同一接种处理下,藜麦根系MDA含量、可溶性糖含量和脯氨酸含量随施氮量的增加均呈先减小后增加的趋势;与未接种处理相比,接种AM真菌后藜麦根系MDA含量显著减小,而其根系可溶性糖含量和脯氨酸含量增加,且接种Gm根系MDA含量降幅以及可溶性糖含量和脯氨酸含量的增幅显著大于接种Gt。研究表明,适量施氮可显著增加藜麦根系摩西球囊霉和扭形球囊霉的侵染率及其菌根依赖性指数,促进藜麦地上部及根系的生长,同时增加其根系抗氧化酶活性和渗透调节物质的积累,减少了体内有害物质的积累,并以摩西球囊霉配合施氮0.4g/kg效果最佳。     

活性炭对苦荞幼苗根系和叶片生理特性的影响

以山西省主栽苦荞品种‘黑丰1号’温室盆栽幼苗为材料,设置土壤活性炭含量分别为0(CK)、2.5(B2.5)、5.0(B5.0)、7.5(B7.5)、10(B10)g/kg共5个水平,研究土壤中施加活性炭后对苦荞幼苗根系及碳氮代谢、保护酶活性等指标的影响.结果显示:(1)随着活性炭施用比例的增加,苦荞幼苗根系生长指标和根系活力指标均呈先增后减的趋势,根平均直径呈先减后增的趋势,其中B5.0、B7.5处理的幼苗根系总长度、总表面积、总体积、活跃吸收面积、根尖数均显著高于对照,但B10处理的根系发育减弱.(2)随活性炭施用比例的增加,苦荞幼苗叶片蔗糖酶活性变化呈先增后减的趋势,同一处理水平条件下随苦荞的生长而逐渐下降;B2.5、B5.0处理苦荞幼苗叶片蔗糖酶活性和可溶性糖含量均比CK极显著增加,B7.5处理略有提高,B10处理差异不显著.(3)苦荞幼苗叶片谷氨酰胺合成酶(GS)活性随活性炭的增加基本呈上升趋势,而同一处理水平下随苦荞的生长而下降;叶片GS活性在B5.0、B7.5处理时比CK极显著提高,可溶性蛋白质含量在B7.5处理时也显著提高.(4)叶片保护酶SOD、POD、CAT活性随活性炭浓度的升高呈先升后降的变化趋势,而同一处理水平下各时期间变化不大;B2.5处理叶片的SOD、POD和CAT活性比对照显著增强.研究发现,适量施用活性炭(2.5～7.5g/kg)能有效促进苦荞幼苗碳氮代谢和保护酶活性,增强其根系活力.     

芽孢杆菌ZJM-P5与氮配施对红小豆幼苗生长和氮吸收的影响

以红小豆品种‘晋红小豆5号’和促生芽孢杆菌ZJM-P5为材料,设置不同氮素用量和菌液浓度处理,采用盆栽试验,测定各菌氮处理下红小豆幼苗农艺性状、生理特性及含氮量等指标,研究促生芽孢杆菌ZJM-P5与氮配施对红小豆幼苗生长发育的影响,并筛选出最佳促生菌液浓度水平,为提高红小豆幼苗的养分吸收利用效率及其高产优质栽培提供理论依据。结果表明:(1)在同一菌液浓度下,红小豆苗期株高、茎粗、叶面积、地上部干重、根系干重、根表面积、根系体积、根系平均直径均随施氮量的增加呈先升高后降低的趋势,而最大根长随着施氮量增加有所下降;根系可溶性糖及MDA含量随施氮量增加均呈先降后升的趋势;根系SOD、POD活性及根系活力均随施氮量增加先升高后降低;根系可溶性蛋白含量、NR活性和植株含氮量均随施氮量增加而增加。(2)在相同施氮量条件下,除根系可溶性糖和MDA含量随着菌浓度的增加先下降后升高外,其余各指标均呈先升后降的变化趋势;各指标除低氮(50mg·kg~(-1))水平下在10~8 cfu·mL~(-1)菌液浓度达到最大值外,其它氮水平均在10~7 cfu·mL~(-1)菌液浓度达到最大值。研究发现,芽孢杆菌ZJM-P5与氮合理配施有利于红小豆植株的氮素吸收和生长发育,并以100mg·kg~(-1)为最佳施氮(纯氮)水平,10~7 cfu·mL~(-1)为最佳菌浓度,且两者组合处理的幼苗农艺性状、根系活力及保护酶活性、氮素含量均达到较高水平;过量施氮、施菌或菌氮比例不合理则会导致幼苗干物质积累及氮素提升受限,进而抑制植株正常生长。     

施磷对川西北高寒草地土壤磷形态及有效性的影响

以川西北高寒草地为研究对象,采用随机区组设计,设置0、10、20、30、40、50、60 g/m²的过磷酸钙(P₂O₅,16%)施肥试验,分析土壤不同形态磷含量和有效磷(Olsen-P)含量变化特征,探究施磷对川西北高寒草地土壤磷形态及有效磷的影响。结果表明：(1)随施磷量增加,土壤总磷(TP)含量先增加后趋于平稳而Olsen-P含量减少。高水平(50、60 g/m²)施磷下氢氧化钠有机磷(NaOH-Po)及残留磷(Residual-P)是高寒草地主要的磷素累积形态,其含量显著高于不施磷处理;(2)树脂交换态磷(Resin-Pi)、碳酸氢钠无机磷(NaHCO₃-Pi)、碳酸氢钠有机磷(NaHCO₃-Po)和氢氧化钠无机磷(NaOH-Pi)含量随施磷量增加整体呈先增加后降低趋势,表层土壤30 g/m²磷肥用量下其值均为最高,分别为21.54、22.94、65.86、64.48 mg/kg。酸溶性无机磷(HCl-Pi)随施磷量增加整体呈下...     

施磷对土壤速效磷含量及径流磷组成的影响

在水稻生长季节设置不同施磷水平 (0、30、70、15 0、30 0 kg P/hm2 )田间小区试验 ,研究施磷对环境及水稻产量的影响。结果表明 ,施磷量与土壤速效磷含量、土表径流磷含量均呈极显著正相关 ,随施磷量提高 ,表层土壤速效磷含量明显增加 ,径流磷含量也随之增加。早期径流液中的磷以颗粒磷为主 ,而后期可溶性磷的比例加大。一般施磷水平下径流液的可溶性磷中有机磷占的比例较大 ,而大施磷量时无机磷占的比例较大。虽然通过径流损失的磷占总施磷量的 0 .2 %以下 ,但径流液中可溶性磷的浓度和总磷浓度均已超过水体富营养化磷浓度的临界值 ,意味着长期的田间排水存在诱发附近水体富营养化的可能     

低氮胁迫对不同苦荞品种苗期生长和根系生理特征的影响

以2个耐低氮苦荞品种(‘迪庆苦荞’、‘广苦1号’)和2个不耐低氮苦荞品种(‘西荞1号’、‘黑丰1号’)为材料,采用盆栽试验研究了低氮胁迫对苦荞苗期生长和根系生理特性以及氮素利用的影响,以揭示苦荞耐低氮胁迫的生理响应机制。结果显示:(1)与正常供氮处理(15mmol/L)相比,低氮(0.5mmol/L)和极低氮(0.05mmol/L)胁迫处理下,苦荞幼苗的株高、茎粗、叶面积、地上部干重、根系平均直径、根系体积及根系表面积均呈下降趋势,主根长和根冠比呈升高趋势,但在低氮(0.5mmol/L)条件下各品种根系干重均有所增加,且耐低氮品种增加幅度较大(13.69%、19.26%)。(2)低氮胁迫使苦荞叶片的叶绿素含量、最大荧光产量(Fm)和最大光化学效率(Fv/Fm)以及根系活力、硝酸还原酶(NR)活性和可溶性蛋白含量显著降低,而叶片初始荧光产量(Fo)及根系超氧化物歧化酶(SOD)活性、过氧化物酶(POD)活性、丙二醛(MDA)、可溶性糖及游离脯氨酸含量呈升高趋势。(3)低氮胁迫使苦荞植株全氮含量及氮积累量显著降低,却使氮素吸收效率显著升高。研究表明,不同耐低氮苦荞品种对低氮胁迫的响应存在显著差异,在低氮胁迫下,耐低氮品种(‘迪庆苦荞’、‘广苦1号’)具有明显的生长优势,不仅农艺性状、叶片光合作用及根系活性受低氮胁迫影响小,而且具有较高的根系保护酶活性、渗透调节物质含量以及全氮量和氮积累量。     

不同基因型苦荞幼苗对低磷胁迫的响应

采用沙培法,以4个不同耐低磷苦荞(Fagopyrum tataricum(L.) Gaertn)品种为材料,设正常磷处理(P1,2 mmol/L对照)、低磷胁迫(P2,1 mmol/L)和极低磷胁迫(P3,0.2 mmol/L) 3个处理,研究低磷胁迫对苦荞苗期农艺性状、生理生化指标以及植株磷利用的影响。结果显示:(1)低磷胁迫下,苦荞苗期株高、茎粗、叶面积、地上部干重、根系干重、根系平均直径、根系表面积、根系体积等指标均有所下降;主根伸长、根冠比有所升高,但不同品种的升降幅度有所不同。(2)低磷胁迫使苦荞叶绿素含量、可溶性蛋白含量和根系活力均有所下降,根系的SOD活性、POD活性、酸性磷酸酶活性、可溶性糖含量、游离脯氨酸含量显著增加,且表现为耐低磷苦荞品种的增幅大于不耐低磷苦荞。(3)低磷胁迫使苦荞植株全磷含量和单株磷积累量下降,却使磷利用效率升高。研究结果表明耐低磷品种通过主根伸长下扎以及分泌较多的酸性磷酸酶,合理吸收与利用土壤磷素,通过保持叶片较高的叶绿素含量维持较强的光合能力,通过保持较高的抗氧化酶活性降低膜脂过氧化伤害,最大程度的适应低磷环境。     

氯盐胁迫下氮素对西瓜根系生长的调控作用

为揭示氯盐胁迫下氮素对西瓜根系的调节机制和提供西瓜氯毒害调控理论依据,以西瓜为供试作物,采用土培试验,研究不同施氮量(0,0.1,0.15,0.2,0.25 g/kg)对氯盐胁迫下西瓜根系的影响,并应用主成分分析法对各施氮量下根系生长情况进行综合评价。结果表明,(1)与不施氮相比,施氮0.15 g/kg处理可使西瓜根系生物量、干物质累积量、脯氨酸含量、可溶性糖含量、根系活力分别显著提高58.83%、20.83%、98.33%、70.37%和29.44%,丙二醛含量显著降低40.30%,同时使总根长、总根表面积、根尖数、分枝数分别显著增加103.42%、46.41%、64.44%、87.80%,总根体积和总根系直径分别减少23.05%和40.15%。(2)在本试验氯盐胁迫条件下,施氮0.14~0.17 g/kg时西瓜具有较理想的根系构型和较高的根系活力。(3)根系分枝数、根系活力、总根体积、根尖数可作为氯盐胁迫下氮素对西瓜根系生长影响的综合评价指标,各施氮水平对氯盐胁迫的缓解效果表现为0.15 g/kg>0.20 g/kg>0.10 g/kg>0.25 g/kg。可见,在氯盐胁迫下,适量施氮有助于西瓜建立良好的根系构型,提高根系渗透物质含量,降低细胞渗透势,减少根系丙二醛含量,维持较强的根系活力,增加根系生物量和干物质,缓解高浓度氯盐对西瓜生长的抑制作用。     

秸秆覆盖与施磷对四川丘陵旱地土壤磷形态及有效性的影响

为揭示秸秆覆盖配施磷肥下土壤无机磷形态变化规律及磷的有效性,本研究采用二因素裂区设计,主区为秸秆覆盖和不覆盖,副区为3个施磷量(0、75和120 kg·hm^-2),分析秸秆覆盖与施磷条件下四川丘陵旱地紫色土磷吸附-解吸特征、无机磷组分含量及其与有效磷的关系。结果表明: 2018—2020年两个试验年度秸秆覆盖处理比不覆盖处理土壤磷最大吸附量分别显著降低7.7%和7.4%,磷吸附饱和度分别显著增加35.4%和18.6%,土壤易解吸磷分别显著提高21.6%和35.2%,磷最大缓冲容量无显著差异;施磷与不施磷相比,磷最大吸附量和最大缓冲容量显著降低,吸附饱和度显著增加,易解吸磷则随施磷量的增加而增加。两个试验年度秸秆覆盖处理比不覆盖处理磷酸二钙(Ca₂-P)、磷酸八钙(Ca₈-P)和铁磷(Fe-P)含量显著增加,铝磷(Al-P)含量显著降低,闭蓄态磷(O-P)和磷灰石(Ca₁₀-P)含量有降低的趋势;与不施磷相比,施磷则提高了不同无机磷组分含量。与不覆盖处理相比,两个试验年度秸秆覆盖处理土壤有效磷含量分别显著增加23.2%和9.6%,磷活化系数分别显著提高21.3%和8.9%,且土壤有效磷含量和磷活化系数均随施磷量的增加而提高。回归分析表明,无机磷各组分对紫色土有效磷有效性的贡献为Ca₂-P>Fe-P>Al-P>Ca₈-P>Ca₁₀-P>O-P。因此,秸秆覆盖配施磷肥促进了土壤难溶性磷向中等活性或易于作物吸收的磷形态分解和转化,降低土壤对磷素的吸附,促进土壤磷素的解吸,最终提高土壤磷素有效性。综合考虑经济效益,推荐四川丘陵旱地秸秆覆盖配施75 kg·hm^-2磷肥更有利于提高土壤磷素有效性。     

冬小麦光合特征及叶绿素含量对保水剂和氮肥的响应

以不施保水剂和氮（N）肥为对照,测定了保水剂（60 kg·hm^-2）与不同N肥水平（0、225、450 kg·hm^-2）及其配施条件下大田小麦的光合特征、叶绿素含量和水分利用效率等指标,研究了冬小麦拔节期和灌浆期光合生理特征、叶绿素含量及水分利用对保水剂和N肥的响应.结果表明：灌浆期各处理的光合速率、气孔导度、胞间CO₂浓度、叶片水分利用效率及叶绿素含量均大于拔节期.在拔节期,单施N肥条件下,随施N量的增加,单叶水分利用效率提高,光合速率、气孔导度、胞间CO₂浓度及蒸腾速率均先增后减;225 kg·hm^-2 N肥处理的叶绿素含量最高.施用保水剂后,随施N量的增加,胞间CO₂浓度降低,而光合速率等均提高;单施保水剂及其与N肥配施提高了叶绿素含量,而过多N肥效果不显著在灌浆期,单施N肥显著提高了小麦的光合速率及水分利用效率,降低了气孔导度、胞间CO₂浓度及蒸腾速率;叶绿素含量随N肥用量的增加而增加.施用保水剂后,随N肥用量的增加,光合速率和叶片水分利用效率均先增后减,而胞间CO₂浓度和蒸腾速率先减后增,但均低于对照,气孔导度随施N量的增加而提高.单施保水剂的叶绿素含量显著提高,但其与N肥配施叶绿素含量有所降低.保水剂与N肥配合施用显著提高了小麦的千粒重、产量及水分生产效率.其中,保水剂与225 kg·hm^-2N肥配施处理的产量及水分生产效率均最高.     

氮磷硅添加对青藏高原高寒草甸垂穗披碱草叶片碳氮磷的影响

以甘南高寒草甸常见牧草垂穗披碱草(Elymus nutans)为研究对象,比较不同氮磷硅添加下,垂穗披碱草叶片对元素添加的反应。研究发现:氮添加显著提高土壤中硝态氮和铵态氮的含量;磷添加提高了土壤中全磷和速效磷的含量;高浓度的硅单独、硅与氮或磷混合可提高土壤中硝态氮的含量或全磷和速效磷的含量;氮和磷单独添加分别能提高垂穗披碱草叶片全氮和全磷含量,高浓度的硅单独、硅与氮或磷混合添加都能提高垂穗披碱草叶片全氮和全磷的含量。就硅元素而言,高浓度的硅添加,硅与氮或磷混合添加能提高土壤硝态氮、全磷和速效磷的含量,促进垂穗披碱草对土壤中氮磷的吸收,从而使植物叶片中氮磷的含量增加。     

不同施磷水平对冷浸田水稻磷含量、光合特性及产量的影响

为探讨施磷对冷浸田水稻(Oryza sativa)生长的作用,研究不同施磷水平对水稻植株的磷含量、光合特性及产量的影响。结果表明,与对照相比,分蘖期增施磷肥使根、茎叶的磷含量和叶片净光合速率增加10.53%~36.84%、18.52%~37.03%和15.17%~29.88%;抽穗期使根、茎叶和稻穗的磷含量增加11.76%~23.53%、24.13%~41.38%和9.68%~22.58%,叶片净光合速率和可溶性糖含量提高13.41%~27.10%和6.03%~22.38%,而淀粉含量则降低12.05%~41.77%;成熟期的稻穗磷含量和产量增加0.71%~28.57%和4.65%~10.32%。施磷量(X)与稻谷产量(Y)满足方程:Y=-0.0835X~2+14.224X+6530.9(r=0.94*),抽穗期茎叶磷含量、叶片净光合速率与稻谷产量的相关系数分别为0.57*和0.77*。因此,冷浸田增施磷肥可提高水稻植株的磷含量、叶片净光合速率和可溶性糖含量,并降低叶片淀粉累积,从而提高稻谷产量。抽穗期是磷肥影响冷浸田水稻产量的关键时期,0.38%的茎叶磷含量可作为磷素养分丰缺的诊断指标,冷浸田水稻磷肥(P2O5)的推荐用量为85.17 kg hm–2。     

Tomato Growth in Soil Amended with Sugar Mill By-Products Compost

Sugar mill by-products compost may be a good soil amendment to promote tomato (Lycopersicon esculentum L.) growth. In addition, the compost may further promote plant growth by inoculation with N₂-fixing bacteria. Compost from sugar-mill waste was prepared with and without the N₂-fixing bacteria, Azotobacter vinelandii, Beijerinckia derxii and Azospirillum sp. and incubated for 50 days. Each compost type was added to 10 kg of soil in pots at rates of 0, 15, and 45 g with and without fertilizer N at rates of 0, 0.75, and 1.54 g. A blanket application of P and K was applied to all pots. Shoot and root dry weights and N content of the whole plant was measured at 55 days. Dry weight of tomato shoots was increased by 40% by addition of fertilizer N and root weight was increased by 66%. Without fertilizer N the high rate of inoculated compost increased shoot growth 180% and uninoculated compost increased shoot growth 112%. For most treatments with and without fertilizer N, inoculated compost enhanced shoot growth and nitrogen content more than uninoculated compost. Root weights were nearly doubled by addition of either compost in comparison to the 0 N treatment. At the low rate of compost addition without fertilizer N, root weight was the same for uninoculated and inoculated compost but at the high rate of compost addition root weight was 32% higher for inoculated compost. The N₂-fixing bacteria colonized roots when inoculated compost was used. Sugar mill by-products compost proved to be an effective soil amendment for promoting the growth of tomato plants.     

基于APSIM模型的旱地春小麦产量对施氮量和施氮深度的响应模拟

氮是限制黄土高原旱农区作物水分生产潜力提升的重要因素,而氮肥适度深施是旱地作物提效增产的有效措施.本研究利用甘肃省陇中地区1990-2020年气象观测数据,基于APSIM模型模拟了不同施氮量和施氮深度的春小麦产量,以期为优化陇中旱农区小麦施肥策略提供理论依据.结果表明:模型模拟的春小麦产量、生物量和生育期0～200 c...     

Prof. Dr. H. C. Władysław Węgorek 16 February 1918-16 July 2001

Abstract

In 2004, two field trials with cotton were conducted at two locations in Tajikistan to estimate the effectiveness of FZB 24® Bacillus subtilis (ABiTEP GmbH Berlin) as a biofertilizer for increasing the cotton yield in comparison to the utilization of the conventional fertilizer containing nitrogen (N), phosphorus (P) and potassium (K), with an application rate per ha 180 kg N, 120 kg P, 60 kg K. The following treatments of cotton cultivated as test variants each on 1 ha field under the same conditions were carried out and the effect on the plant growth, the development of number of bolls/plant and mainly the cotton fibre yield were calculated: (i) Seed treatment with water and only crop application of the NPK fertilizer; (ii) Only seed treatment with spore suspension of FZB 24 WG Bacillus subtilis, without application of the NPK fertilizer; (iii) Seed treatment with spore suspension of FZB 24 WG Bacillus subtilis plus crop application of the NPK fertilizer; and (iv) Only seed treatment with the comparable plant-growth-promoting rhizobacteria product Extrasol 55 (ARRIAM St Petersburg), without application of the fertilizer. Comparing cotton growth and yield of the variants in both field tests, there appeared a remarkable yield and growth increase (up to 30%) by the use of FZB 24 alone compared to the application of the NPK fertilizer. The additional application of the NPK fertilizer (Variant: FZB 24 + NPK) could not enlarge this plant productivity-promoting effect. Apparently under the test conditions the increase of the root system in size and capacity as well as the additional enzymatic mobilizing of organic bound phosphorus for the plant as activities from the Bacillus subtilis introduction was more important for the plant system than the limited direct input with N, P and K. The plant treatment alone with Extrasol 55 resulted in similar promotion of cotton growth and yield as FZB 24 when compared with the NPK plant fertilizing, showing that the activity of FZB 24 was not very specific. However the cotton field tests generally demonstrate for FZB 24 Bacillus subtilis a high ability to improve plant growth and yield based on increasing the capacity of roots to mobilize and take up nutrients and substances for overall reproductive plant fitness. The use and value for part-substitutions of some environmentally problematical mineral fertilizers in other and intensive plant production systems is discussed.     

低磷和干旱胁迫对大豆植株干物质积累及磷效率的影响

土壤缺磷和季节性干旱已经成为南方酸性红壤地区大豆生产的主要限制因素之一。选取2个大豆品种巴西10号(磷高效)和本地2号(磷低效),研究其在不同磷素(0,15, 30 mg/kg P)和水分处理(分别在开花期和结荚期进行干旱胁迫)下的反应,从植株生物量、叶绿素含量、磷效率指标等方面研究不同基因型大豆对水磷耦合胁迫的适应机制。研究结果表明,随着土壤磷素水平的增加,两个品种的生物量和叶片叶绿素含量显著增加,根冠比则显著下降。在同一磷素水平处理下,干旱胁迫则导致较高的根冠比,对叶片叶绿素含量影响不大,两个品种表现一致。两个基因型大豆受到干旱胁迫后,其产量均显著低于正常水分处理。中等施磷能显著提高两个大豆品种的产量,但高磷处理对产量的增加幅度有限,甚至高磷处理还造成本地2号减产。巴西10号的产量随土壤中磷素的增加而增加,而本地2号的产量则为中磷>高磷>低磷,不管是磷处理还是水分处理,巴西10号的产量均高于本地2号。无论是花期干旱还是结荚期干旱,巴西10号和本地2号的根磷效率比、磷吸收效率及磷转移效率均随土壤磷浓度的增加而增加,磷利用效率则降低。总体上来讲,巴西10号的磷吸收效率和利用效率高于本地2号,而根磷效率比、磷转移效率则小于本地2号。     

Agronomical traits associated with yield and yield components of winter wheat as affected by nitrogen managements

Nitrogen fertilizer is one of the key elements to increase the yield and significance of winter wheat. The experiment was established in the split zone design and was repeated three times. The nitrogen application level is set to 4 treatments, 75, 150, 225 and 300 kg ha⁻¹ are arranged in the main plot, and different nitrogen application ratios are arranged in the sub-plots, respectively 5:5 (50%+50%) and 6: 4 (60%) + 40%). Nitrogen fertilizer was applied before sowing, jointing stage, flowering stage and filling stage. The experimental plot is 12 m2 (3 m × 4 m). The results showed that under the conditions of 225 kg/hm2 nitrogen application and 60%+40% nitrogen application rate, the yield of Jintai 182 was the highest compared with other treatment groups. With the increase of nitrogen application rate, the number of ears, grains per ear, thousand-grain weight and grain yield all increase first and then decrease. Each factor reached the highest 225 N kg / hm2, 417.17, 30.74, 40.96 g and 6182.11 kg / hm2. Compared with 75 kg/hm2 topdressing fertilizer, 225 kg/hm2 is a more suitable nitrogen fertilizer application rate for winter wheat. Within a reasonable range of nitrogen fertilizer application, there is a significant positive correlation between nitrogen content and winter wheat yield. By studying the amount of nitrogen fertilizer and a reasonable ratio of base fertilizer to topdressing, the utilization rate of nitrogen fertilizer can be maximized and excessive application of nitrogen fertilizer can be avoided.     

Effect of plant genotype and nitrogen fertilizer on symbiotic nitrogen fixation by soybean cultivars

Summary Isotopic as well as non-isotopic methods were used to assess symbiotic nitrogen fixation within eight soybean [Glycine max (L.) Merr.] cultivars grown at 20 and 100 kg N/ha levels of nitrogen fertilizer under field conditions.The¹⁵N methodology revealed large differences between soybean cultivars in their abilities to support nitrogen fixation. In almost all cases, the application of 100 kg N/ha resulted in lower N₂ fixed in soybean than at 20 kg N/ha in the first year of the study. However, N₂ fixed in one cultivar, Dunadja, was not significantly affected by the higher rate of N fertilizer application. These results were confirmed by measurements of acetylene reduction activity, nodule dry weight and N₂ fixed as measured by the difference method. Further proof of differences in N₂ fixed within soybean cultivars and the ability of Dunadja to fix similar amounts of N₂ at 20 and 100 kg N/ha was obtained during a second year experiment. Dunadja yield was affected by N fertilizer and produced larger yield at 100 kg N/ha than at 20 kg N/ha. This type of cultivar could be particularly useful in situations where soil N levels are high or where there is need to apply high amounts of N fertilizer.The present study reveals the great variability between legume germplasms in the ability to fix N₂ at different inorganic N levels, and also the potential that exists in breeding for nitrogen fixation associative traits. The¹⁵N methodology offers a unique tool to evaluate germplasms directly in the field for their N₂ fixation abilities at different N fertilizer levels.     

不同施氮量对桑园红壤耕层酶活性的影响

在广西红壤典型气候区研究施用氮肥对桑园土壤过氧化氢酶、脲酶、酸性磷酸酶和转化酶酶活性的影响,为广西红壤区桑园合理施氮和耕地保育提供科学依据。试验设置3个施氮量水平(N1:120.75 kg N/hm2,N2:172.5 kg N/hm2,N3:207 kg N/hm2),在冬季测定不同氮肥处理下耕层土壤酶活性,并与桑叶产量进行相关分析。结果表明,土壤脲酶和转化酶活性均随着施氮量的增加而增加,过氧化氢酶和酸性磷酸酶活性在中等施氮量(N2处理)下较大。土壤转化酶和脲酶活性呈显著的正相关关系、转化酶和磷酸酶活性呈显著的正相关关系,土壤脲酶、磷酸酶、转化酶活性与桑叶产量呈极显著相关。合理施用氮肥能提高桑园土壤转化酶、磷酸酶、脲酶活性,土壤脲酶和蔗糖酶活性可作为评价桑园土壤肥力质量的指标之一。