苏南苏中苏北地区3个杂草稻生物型萌发特性比较研究

为了搞清楚江苏地区杂草稻不同生物型在萌发特性上的差异,选择了苏南、苏中和苏北地区3个杂草稻生物型及2个常规栽培稻品种,采用种子生测法,进行了温度、水势、盐分、pH值和埋土深度对杂草稻与常规栽培稻种子萌发影响的研究。结果表明,在萌发适宜温度范围方面,JT-3、JD-4〉SY63〉GY-LZC〉WYJ7;不同水势条件下,JT-3、JD-4的萌发率〉GY-LZC的萌发率〉常规栽培稻的萌发率。JT-3、JD-4在每个盐浓度处理下的萌发率〉GY-LZC的萌发率;在pH值7~8范围之外,JT-3、JD-4的萌发率〉GY-LZC的萌发率〉常规栽培稻萌发率;当埋土深度在4~7 cm范围内,常规栽培稻的出苗率〉杂草稻。     

马唐生物学特性初步研究

通过室内试验研究温度、土壤含水量、水层和土层深度对马唐萌发和生长的影响。结果表明,马唐最适萌发温度为25-35℃,最低萌发温度为10-15℃,最高萌发温度为40～45℃;马唐萌发最适土壤含水量为40％,土壤含水量低于10％、大于50％时,萌发率显著降低;水层对马唐影响较大,水层处理可显著降低马唐的出苗率;随着土层深度的增加,马唐出苗率逐渐降低,土层深度〉7cm则马唐不能出苗。     

江苏省江都市黑褐色谷壳杂草稻种子库调查

江苏省江都市稻田黑褐色谷壳杂草稻种子主要集中在表层土壤,即0～2 cm的土层内,占黑褐色谷壳杂草稻种子数量的92.65%。在土壤种子库中,黑褐色谷壳杂草稻数量在严重危害田块是黄色谷壳稻的17.9倍,中等危害田块为1.58倍,轻度危害田块仅0.17倍。     

东北稻区稻田杂草稻控制措施的探讨

东北稻区自生杂草稻在目前常用的稻田除草剂常规剂量处理下株防效为0,种子埋深10 cm以下才能控制其萌发出土,灌水深度10 cm对种子发芽没有明显的抑制作用.在秋季灌水条件下越冬的种子冻死率为100％,而在干燥态土壤中多数种子可安全越冬.     

土层深度对三种麦田禾本科杂草出苗及生长的影响

为明确小麦田禾本科杂草在不同土层深度的出苗及生长情况,选取雀麦Bromus japonicas、节节麦Aegilops tauschii和野燕麦Avena fatua三种小麦田常见禾本科杂草,采用盆栽法系统研究不同土层深度对杂草出苗及生长的影响。结果表明,小麦田禾本科杂草雀麦、节节麦和野燕麦出苗和生长与不同土层深度密切相关,在浅土层中均有较好的出苗率,且后期生长也正常。从出苗时间来看,雀麦和野燕麦集中出苗时间在播种后5～11 d,节节麦略晚于这2种杂草;从最适出苗土层深度来看,雀麦最适出苗土层深度为0.5～3.5 cm,出苗率在76.0%～87.0%之间,节节麦的最适出苗深度为0.5～8.0 cm,出苗率在66.7%～79.3%之间,而野燕麦的最适土层深度为0.5～18.0 cm,出苗率达84.2%～94.4%;从出苗后生长影响来看,0～20 cm土层对野燕麦后期生长没有显著影响,土层深度大于10.0 cm对节节麦生长有显著抑制作用,大于6.0 cm即对雀麦有显著影响。研究表明通过深翻土地可以对雀麦和节节麦达到一定的控制作用,但对野燕麦控制效果相对略差。     

贵州修文猕猴桃园白星花金龟越冬情况调查

为明确白星花金龟在猕猴桃园的越冬情况,于2018—2019年在贵州修文开展了白星花金龟越冬场所及分布调查。结果表明,白星花金龟主要在田边堆肥、杂草堆积处、树干周围等场所越冬。幼虫占调查越冬虫态的96.09%,越冬场所类型对虫口数量存在显著影响(P<0.05)。12月下旬调查,幼虫主要分布在0~30 cm土层中,至第二年1月下旬,活虫总数明显减少,以0~10 cm土层中虫口减退率最高,为79.66%。幼虫主要分布在11?40 cm土层。其中,31~40 cm土层虫量有所增加,虫口减退率为-3.17%,越冬种群在土层中存在一定下潜。幼虫集中在距树干31~90 cm的土层中,除东、东南方向虫口数量较低外,树干其他方位数量均无显著差异。     

水稻对杂草稻生长的影响

室内试验和田间试验结果表明,水稻种子萌发不会影响杂草稻种子萌发.水稻与杂草稻不同比例田间试验结果表明,水稻与杂草稻基本苗在27∶ 1～320∶1时,水稻不影响杂草稻的生长,对杂草稻分蘖数、株高和杂草稻产种量影响不显著.     

鹅观草种子萌发及出苗特性

在实验室和温室条件下研究不同温度、光照、水势、盐分对鹅观草种子萌发以及埋土深度对鹅观草出苗的影响。结果表明,鹅观草种子萌发的昼/夜温度范围为20℃/10℃~35℃/25℃,最适昼/夜温度为25℃/15℃;黑暗条件下,鹅观草种子萌发率较光照下略有提高,说明鹅观草萌发不需要光照;鹅观草种子对水势胁迫较敏感,水势从0下降至-0.8 MPa时,发芽率从93%直线下降至0;鹅观草种子对盐分胁迫具有一定耐受性,当NaCl浓度≤50 mmol/L时,种子均能保持80%以上的萌发率。50%萌发抑制率时的水势和NaCl浓度分别约为-0.4 MPa和100 mmol/L。埋土深度为0.5 cm时,鹅观草出苗率最高,埋土深度≥3 cm时出苗率显著下降。表明鹅观草种子萌发具有较强的环境适应性,通过耕作将其种子带入4 cm以下土层,可有效抑制鹅观草的危害。     

不同环境因素对猪殃殃种子萌发及出苗的影响

为探讨猪殃殃种子萌发的适宜环境条件,通过室内萌发试验研究了温度、光照、pH、水势、盐分对猪殃殃种子萌发以及埋土深度对其出苗的影响。结果表明,猪殃殃种子萌发的适宜环境条件为温度10~20℃、光暗12h交替培养以及pH 4~10,萌发率可达到50%以上。猪殃殃种子对水势比较敏感,萌发率随着水势的降低而降低,当水势为0时,萌发率为50.50%,水势降低至-0.6 MPa时,仅有个别种子萌发,萌发率为3.50%,当水势为-0.7 MPa时,种子萌发完全受到抑制;猪殃殃种子对盐分胁迫有一定忍耐力,当NaCl浓度为0.16mol/L时,仍有少数种子萌发,萌发率为16.50%;适于猪殃殃种子出苗的埋土深度是1~2cm,出苗率达到49.50%。研究结果为猪殃殃的出苗调控和综合治理提供了依据。     

不同环境因素对节节麦萌发的影响

节节麦Aegilops tauschii Coss.是麦田难治杂草,研究环境条件对节节麦发芽的影响对预测其适生区域及综合治理有重要意义。以采自陕西、山东和河南的3个节节麦种群为对象,通过室内和室外萌发试验研究了水势、pH、盐分和播种深度与节节麦萌发的关系。结果表明,3个节节麦种群在不同的环境条件下表现出相似的萌发及出苗特性,其萌发对水势敏感,发芽率随水势的下降而降低,当渗透势小于-1.0 MPa时,种子不萌发;节节麦萌发对pH要求不高,在pH 3～10条件下发芽率均超过70%;其萌发具有一定的耐盐性,盐浓度为0 mmol/L时,发芽率最高,盐浓度大于420 mmol/L时,节节麦不能萌发;节节麦出苗率随播种深度的增加而降低,播种在土壤表面时,出苗率最高,播种深度大于10 cm时,未发现节节麦出苗。3个节节麦种群发芽对上述不同环境因子的反应差异不显著。     

少花蒺藜草种子萌发与出苗特性

少花蒺藜草是我国重要外来入侵植物之一。研究了环境因子对少花蒺藜草种子萌发和出苗的影响。研究结果表明,光照会促进少花蒺藜草种子休眠,少花蒺藜草种子萌发温度范围为15～40℃,最适萌发温度为25℃,萌发的临界温度在10～15℃;临界水势在－12～－10 MPa,水势在－8～－4 MPa的环境适宜少花蒺藜草生长。少花蒺藜草出苗临界土壤含水量在1．0％～2．5％,生长临界含水量在2．5％～5．0％;少花蒺藜草在pH值为2～12的条件下均可萌发生长,但pH值为12的条件更适合生长;少花蒺藜草种子在沙土中0～15 cm深度均可出苗,1～9 cm深度出苗率最高,在壤土中1～7 cm深度出苗率最高,超过11 cm不能出苗。     

Studies on the longevity and germination of seed of Eleusine indica and Crotalaria goreensis

The longevity of seed of Eleusine indica (L.) Gaertn. and Crotalaria goreensis Guill. & Perr. stored at various depths in a krasnozem soil in pots was studied over 3 years under natural climatic conditions on the Atherton Tableland of Queensland. Australia. In the first year the maximum percentage of seed which emerged was 68% for E. indica and 48.3% for C. goreensis. In the second year the percentages were 2.0 and 19.3. respectively and in the third year they were 0.2 and 1.4. In the case of both species emergence was greater from the 0–5 cm depth than from the 5–10 cm depth. Some of the seed buried at the 5–10 cm depth germinated but failed to emerge. Significantly more hard seed of C. goreensis remained at the 5–10 cm depth (25.7%) than at the 0–5 cm depth (9.8%) after 3 years. However, much of this seed was either dead or moribund and the percentage of truly viable seed (c. 5%) was the same at both depths. In depth of emergence experiments the emergence of seed of both species did not vary significantly in the 0–4 cm depth ranges. At depths greater than 4 cm emergence declined. No E. indica seed emerged from 8 cm or deeper and no C. goreensis seed emerged from 12 cm or deeper.     

Biology and management of Phalaris minor in wheat under a rice/wheat system

Summary Germination of Phalaris minor declined with the increase in duration of imbibition in water from 30 min to 72 h at temperatures above 22 °C . Germination was reduced down to 10 cm and 2 cm soil depth by wheat straw burning in puddled and non-puddled soil, respectively, with maximum reduction near the soil surface. The dormancy of P . minor seed was not more than 60 days under field conditions. In puddled soil, 38–60% of the viable seeds of P. minor remained concentrated in the upper 5-cm layer. Germination decreased with an increase in soil depth. In total, 15% of seeds stored in the laboratory emerged from 10-cm depth, whereas seeds did not germinate below 4.2-cm depth under field conditions. Depth of emergence of P . minor was shallower in zero tillage compared with the conventional method of wheat sowing. The seeds retrieved from rice soils kept under continuous submergence for 60 days exhibited 26% and 57% loss of germination over semi-submergence and semi-wet conditions respectively. There was 100% loss of germination in 10-month-old seeds retrieved from the soil under rice-growing conditions. Plant density of P. minor was lower in zero tillage than with the conventional method of wheat sowing. Cross-ploughing in the upper 2–5 cm of soil (shallow tillage) and drill-sowing of wheat 1 week after shallow tillage reduced germination of P. minor by 44% and 37% and increased grain yield by 21% and 47% over zero-tillage and conventional methods respectively.     

Germination,emergence, and persistence of Sonchus oleraceus,a major crop weed in subtropical Australia

Sonchus oleraceus (common sowthistle) is a dominant weed and has increased in prevalence in conservation cropping systems of the subtropical grain region of Australia. Four experiments were undertaken to define the environmental factors that favor its germination, emergence, and seed persistence. Seeds were germinated at constant temperatures between 5 and 35°C and water potentials between 0 and ?1.4 MPa. The maximum germination rate of 86–100% occurred at 0 and ?0.2 MPa, irrespective of the temperature when exposed to light (12 h photoperiod light/dark), but the germination rate was reduced by 72% without light. At water potentials of ?0.6 to ?0.8 MPa, the germination rate was reduced substantially by higher temperatures; no seed germinated at a water potential >?1.0 MPa. Emergence and seed persistence were measured over 30 months following seed burial at 0 (surface), 1, 2, 5, and 10 cm depths in large pots that were buried in a south‐eastern Queensland field. Seedlings emerged readily from the surface and 1 cm depth, with no emergence from below the 2 cm depth. The seedlings emerged during any season following rain but, predominantly, within 6 months of planting. Seed persistence was short‐term on the soil surface, with 2% of seeds remaining after 6 months, but it increased with the burial depth, with 12% remaining after 30 months at 10 cm. Thus, a minimal seed burial depth with reduced tillage and increased surface soil water with stubble retention has favored the proliferation of this weed in any season in a subtropical environment. However, diligent management without seed replenishment will greatly reduce this weed problem within a short period.     

噁草酮防除直播稻田杂草稻的施用技术

为确立噁草酮防除直播稻田杂草稻的施用技术,通过温室盆栽试验比较了噁草酮在不同土壤水分环境下对栽培稻的安全性及对杂草稻的防效,并在大田中比较了不同直播方式下其对杂草稻的防效及栽培稻产量的影响。结果表明,透气条件下,噁草酮对栽培稻的药害最低,但对杂草稻的防效也较差;饱和水分条件下对杂草稻防效较好,150 g(a.i.)/hm~2时其出苗率和鲜重的抑制率达89.61%和61.87%,超过450 g(a.i.)/hm~2时完全抑制出苗;但药后播种对栽培稻安全性较高,600 g(a.i.)/hm~2下对其出苗率和鲜重的抑制率仅分别为38.06%和39.96%,播后施药的药害较重,最低剂量150 g(a.i.)/hm~2时抑制率已分别达88.77%和45.52%;淹水条件下,虽对杂草稻有100%的防效,但也完全抑制栽培稻出苗。大田施用噁草酮300、450、600 g(a.i.)/hm~2,旱直播和水直播方式下杂草稻株防效分别为26.88%、43.54%、44.45%和84.88%、85.74%、90.92%;鲜重防效分别为11.58%、20.16%、27.33%和30.86%、53.68%、80.15%。旱直播和水直播方式下施用量分别超过450、300 g/hm~2时栽培稻产量显著增加。综合分析,推荐水直播整地后泥水状态施用300 g(a.i.)/hm~2噁草酮,水层落干后播种,保持土壤湿润且土表不出现水渍,栽培稻顺利出苗后及时上水且不淹没苗心为宜。     

季节性冻融期覆砂对太谷农田土壤含水率时空变化的影响

研究了冻融期砂层覆盖对剖面土壤含水率的影响。野外试验于2016年11月—2017年3月在山西省太谷均衡实验站进行，主要监测3种地表处理剖面0~100 cm土壤含水率，各处理分别为无覆盖（LD）、0.5~1.5 mm粒径（XS）和1.5~2.0 mm粒径砂层覆盖（CS）。结果表明：冻融期砂层覆盖及土壤水分冻融使得XS和CS处理土壤剖面出现两个水分高值区，即近地表（15.40%~21.79%）和剖面20~40 cm间（15.99%~19.94%）；砂层覆盖对近地表有储水效果，储水效果随土壤深度增加而逐渐减小。覆砂处理对地表处储水效果最佳，平均土壤含水量较LD处理高8.45%~10.94%。覆砂对剖面0~40 cm有明显的储水效果，平均土壤含水率较LD处理高1.56%~1.62%。 40 cm以下3种处理土壤含水率相差较小，平均土壤含水率差值为0.09%~0.40%；砂层覆盖储水效果还与砂层粒径有关，XS处理0~5 cm储水效果优于CS处理，其土壤含水率高于CS处理0.57%~2.39%；地表砂层覆盖可以平抑地表土壤含水率变化，覆砂处理地表土壤含水率变幅较LD处理低约4.42%。     

The effects of sowing depth and flooding on the emergence, survival, and growth of Fimbristylis miliacea (L.) Vahl

Glasshouse experiments were conducted from March to July 2003 to determine the effects of sowing depth, and the time, duration, and depth of flooding on the emergence, survival, and growth of Fimbristylis miliacea (L.) Vahl. The treatments that were evaluated in the first experiment were three seeding depths (0, 0.5, and 1.0 cm), while in the second experiment, three flooding depths (saturated soil with no standing water and soil with water depths of 5 and 10 cm) and three flooding durations (7, 14, and 21 days from sowing) were evaluated. In the third experiment, three flooding depths (saturated soil with no standing water, and soil with water depths of 5 and 10 cm) and four flooding regimes (7, 14, 21 or 28 days after sowing [DAS]) were evaluated. Surface seeding gave the highest emergence rate compared to the 0.5 cm and 1.0 cm soil depths. A significantly higher emergence rate was recorded with the saturated conditions than with the flooded conditions. A flooding duration of ≥ 14 days showed a clear trend of reduced emergence with increasing flooding depth. A significantly higher survival rate, plant height, root length, number of leaves, and dry matter were recorded at soil saturation followed by the 5 cm and 10 cm flooding depths when flooding was simulated at 7 and 14 DAS. When the flooding was delayed to 21 and 28 DAS, the 10 cm flooding depth was required to suppress this weed. The results provide sufficient evidence to confirm that from deeper seed burial (1 cm sowing depth), flooding depths of ≥ 5 cm of durations of 14 and 21 days and at the onset of flooding within 14 DAS were effective in suppressing the emergence and growth of F. miliacea .