灌溉和种植方式对冬小麦生育后期旗叶光合特性及产量的影响

于2009—2011年通过田间试验,以高产中筋冬小麦品种济麦22为材料,设等行距平作、宽窄行平作、沟播3种种植方式,每种种植方式下设不灌水(W0)、灌拔节水(W1)、灌拔节水+开花水(W2)、灌拔节水+开花水+灌浆水(W3)4种灌溉处理(每次灌水量为60 mm),研究不同灌溉和种植方式对冬小麦生育后期旗叶光合特性和产量的影响.结果表明:随冬小麦灌水量的增加,3种种植方式下小麦花后旗叶叶面积和光合速率均增加,光系统Ⅱ最大光化学效率和实际光化学效率也增加;与W0处理相比,各灌水处理提高了小麦籽粒产量,但水分利用效率(WUE)降低.同一灌溉条件下,与其他两种种植方式相比,沟播方式小麦花后旗叶光合速率、光系统Ⅱ最大光能转化效率和实际光化学效率均较高,且W2处理籽粒产量显著高于其他处理.统筹考虑冬小麦的籽粒产量和WUE,沟播结合灌拔节水+开花水是华北平原冬麦区较适宜的节水种植方式.     

灌溉和种植方式对冬小麦生育后期旗叶光合特性及产量的影响

于2009—2011年通过田间试验,以高产中筋冬小麦品种济麦22为材料,设等行距平作、宽窄行平作、沟播3种种植方式,每种种植方式下设不灌水(W₀)、灌拔节水(W₁)、灌拔节水+开花水(W₂)、灌拔节水+开花水+灌浆水(W₃)4种灌溉处理(每次灌水量为60 mm),研究不同灌溉和种植方式对冬小麦生育后期旗叶光合特性和产量的影响.结果表明: 随冬小麦灌水量的增加,3种种植方式下小麦花后旗叶叶面积和光合速率均增加,光系统Ⅱ最大光化学效率和实际光化学效率也增加;与W₀处理相比,各灌水处理提高了小麦籽粒产量,但水分利用效率(WUE)降低.同一灌溉条件下,与其他两种种植方式相比,沟播方式小麦花后旗叶光合速率、光系统Ⅱ最大光能转化效率和实际光化学效率均较高,且W₂处理籽粒产量显著高于其他处理.统筹考虑冬小麦的籽粒产量和WUE,沟播结合灌拔节水+开花水是华北平原冬麦区较适宜的节水种植方式.     

除草剂对冬小麦光合特性、籽粒产量及品质的调控效应

通过田间试验研究了4种除草剂(2,4-D丁酯、‘巨星’、‘世玛’和‘骠马’)对2个小麦品种(‘临优145’和‘临汾138’)光合特性、籽粒产量和品质的影响。结果表明:2,4-D丁酯使小麦灌浆期间旗叶的叶绿素相对含量(SPAD值)和净光合速率(Pn)一直较低,千粒重和籽粒产量显著低于对照;‘巨星’使灌浆前期的SPAD值和Pn较高而中后期快速下降,灌浆持续时间缩短,产量与对照相近;‘世玛’使灌浆前中期SPAD值和Pn较低但后期下降缓慢,灌浆持续时间延长,千粒重和籽粒产量显著高于对照和其它处理;‘骠马’对光合特性和产量影响较小。2,4-D丁酯和‘骠马’使籽粒的蛋白质含量、湿面筋含量、沉降值、吸水率、评价值显著或极显著提高,稳定时间延长,而形成时间与对照相近;‘巨星’和‘世玛’处理的品质指标大多低于或接近对照。研究发现,除草剂通过调控小麦旗叶光合特性和灌浆进程来影响其千粒重和籽粒产量,且除草剂和品种间存在差异;2,4-D丁酯虽能明显改善小麦品质但却显著降低籽粒产量,‘骠马’使小麦品质特性改善的同时也使籽粒产量有所提高,‘世玛’虽能显著提高籽粒产量却使品质特性变差。     

底墒和种植方式对夏大豆光合特性及产量的影响

选择华北地区冬小麦-夏大豆一年两熟制度,冬小麦设置90 mm、135 mm、180 mm3种灌水量。冬小麦收获后,播种夏大豆,夏大豆设置30 cm等行距、“20 40” cm大小行、“20 40” cm垄作3种种植方式。研究了底墒和种植方式对夏大豆光合特性及产量的影响。结果表明,冬小麦灌溉能够明显影响夏大豆播种时的土壤蓄水量（底墒）。随冬小麦灌水量的增加,夏大豆播种时底墒改善,180 mm和135 mm较90 mm处理明显提高了夏大豆净光合速率、蒸腾速率、气孔导度、细胞间隙CO2浓度、叶绿素含量指数、Fo、Fv及ΦPSⅡ,增产效果显著。180 mm较135 mm处理增产效果不显著,且水分利用效率显著降低。夏大豆种植方式也能明显影响其净光合速率、蒸腾速率、气孔导度、细胞间隙CO2浓度、叶绿素含量指数、Fo、Fm、ΦPSⅡ、Fv/Fm、产量及水分利用效率,具体表现为：“20 40” cm垄作> 30 cm等行距>“20 40” cm大小行。综合评价,冬小麦135 mm灌水量条件下,夏大豆采用“20 40” cm垄作是生产上可行的栽培模式。     

根际酸化作用对杨树无性系磷营养效率的影响

应用土培盆栽技术,研究了杨树P营养效率的无性系差异与根际酸化作用的关系。P处理设4个水平,分别为0、40、80和120mg·kg^-1(P2O5),每个处理重复3次。各用土40kg,随机排列．结果表明,在缺P胁迫下,P营养高效型无性系S17、S19和105的根际pH值明显降低,最大为1．32个单位。降幅均在10％以上;而P营养低效型无性系106、797、I-69、1388和3244的根际pH值的降低则很小。最大的仅为0．21个单位,降幅均在2．5％以下。高效型无性系的根际pH值。随缺P胁迫的增加而逐渐降低。一旦缺P胁迫缓和,根际pH值随之增高,低效型无性系则不具有这种反应机理。S17、S19和105在缺P胁迫环境下,根际有效磷分别为2．64、3．27和3．28mg·kg^-1,根际有效磷的积累率均在60％以上;而无性系106、797、I-69、1388和3244的根际有效磷均不足2．00mg·kg^-1,根际有效磷的积累率不足10％。高效型无性系在缺P胁迫环境下对P的吸收量显著高于低效型无性系,统计分析也证明,缺P胁迫条件下。无性系根际有效磷的积累与根际pH值降低呈显著相关。说明根际酸化作用是根际有效磷增加的原因。     

水分和氮素运筹对冬小麦生育后期光合特性及产量的影响

在大田条件下,进行了不同水分和氮素运筹对冬小麦生育后期光合特性及产量影响的研究。结果表明：适当增施氮素有利于提高旗叶的叶绿素含量(Chl)、PSⅡ潜在活性(Fv／Fo)及PSⅡ光化学的最大效率(Fv／Fm),而减少荧光非光化学猝灭系数(qN),从而提高光合速率(Pn)和产量。但水分不足或过多,均会影响氮素对光合性能的改善,进而影响水分及氮素的效率和产量的形成。     

氮磷肥配施对冬小麦灌浆期光合参数及产量的影响

在西北绿洲生态条件下, 实验设4个处理, 即165(N₁)和225 kg·hm^-2(N₂)2个氮素(纯氮)水平及105(P₁)和165 kg·hm^-2(P₂)2个磷素(P₂O₅)水平, 研究了氮磷肥配施对冬小麦(Triticum aestivum)品种临抗2号光合特性及产量的影响。结果表明, 低氮(165 kg·hm^-2)处理组的净光合速率(P_n)、气孔导度(G_s)及蒸腾速率(T_r)日变化均呈双峰曲线, 有光合“午休”现象; 高氮(225 kg·hm^-2)处理可减弱甚至使光合“午休”现象消失; 高磷(165 kg·hm^-2)和低磷(105 kg·hm^-2)处理对光合特性的影响差异不显著。N₂P₂具有最高的群体叶面积指数(LAI)、群体光合速率(CAP)、穗粒数、亩穗数、千粒重及产量, 且与N₁P₁和N₁P₂的差异均达显著水平, 与N₂P₁则无显著差异。但N₂P₂水分利用效率(WUE)低于N₂P₁, 显著高于N₁P₁和N₁P₂ (N₁P₁高于N₁P₂, 但无显著差异)。氮肥对光合“午休”的影响大于磷肥, 二者互作效应差异不显著。该实验条件下, 当N、P分别为225和105 kg·hm^-2时有利于提高冬小麦的光合速率及产量。     

测墒补灌对小麦旗叶光合特性及酶活性的影响

以‘济麦20’为供试材料,通过田间试验,在拔节期和开花期设置土壤相对含水量为65%(W₆₅)、70%(W₇₀)和75%(W₇₅)的测墒补灌处理,以全生育期不灌溉为对照(CK),研究不同测墒补灌水平对旗叶光合特性及酶活性的影响.结果表明: W₇₀处理小麦旗叶净光合速率、蔗糖含量和磷酸蔗糖合成酶(SPS)活性在花后14～21 d均显著高于其他处理.成熟期W70处理干物质量与W₇₅处理无显著差异,但显著高于W₆₅处理和CK;W₇₀处理单茎质量显著高于其他处理.W₇₀处理超氧化物歧化酶和过氧化氢酶活性及可溶性蛋白含量在花后14～28 d显著高于其他处理,丙二醛含量在花后14～28 d显著低于CK和W₆₅处理,与W₇₅处理无显著差异.2012—2013年和2013—2014年W₇₀处理小麦籽粒产量分别为8941.4和9125.4 kg·hm^-2,与W₇₅处理无显著差异,显著高于W₆₅处理和CK;W₇₀处理水分利用效率显著高于其他处理.在本试验条件下,拔节期和开花期0
～140 cm土层平均土壤相对含水量均以70%为节水高产高效的最佳灌溉处理.     

灌溉和种植方式对冬小麦耗水特性及干物质生产的影响

于2008—2010年通过田间试验,以高产中筋冬小麦品种济麦22为材料,设等行距平作、宽窄行平作、沟播3种种植方式,每种种植方式下设不灌水(W0)、拔节水(W1)、拔节水+开花水(W2)、拔节水+开花水+灌浆水(W3)4种灌溉处理(每次灌水量为60 mm),研究不同灌溉和种植方式对冬小麦耗水特性及干物质积累与分配规律的影响.结果表明:随灌水量的增加,3种植方式下农田总耗水量均增加,灌水量占总耗水量的比例也增加,而土壤贮水消耗量及其占总耗水量的比例显著降低;与W0处理相比,各灌水处理提高了开花后干物质的积累量、小麦籽粒产量,而水分利用效率(WUE)降低.同一灌溉条件下,与其他两种种植方式相比,沟播方式土壤贮水量消耗比例、籽粒产量和WUE均较高.综合考虑小麦的籽粒产量和WUE,沟播结合灌拔节水+开花水是华北平原冬麦区较适宜的节水种植方式.     

灌溉和种植方式对冬小麦耗水特性及干物质生产的影响

于2008-2010年通过田间试验,以高产中筋冬小麦品种济麦22为材料,设等行距平作、宽窄行平作、沟播3种种植方式,每种种植方式下设不灌水(W₀)、拔节水(W₁)、拔节水+开花水(W₂)、拔节水+开花水+灌浆水(W₃)4种灌溉处理(每次灌水量为60 mm),研究不同灌溉和种植方式对冬小麦耗水特性及干物质积累与分配规律的影响.结果表明： 随灌水量的增加,3种植方式下农田总耗水量均增加,灌水量占总耗水量的比例也增加,而土壤贮水消耗量及其占总耗水量的比例显著降低;与W₀处理相比,各灌水处理提高了开花后干物质的积累量、小麦籽粒产量,而水分利用效率(WUE)降低.同一灌溉条件下,与其他两种种植方式相比,沟播方式土壤贮水量消耗比例、籽粒产量和WUE均较高.综合考虑小麦的籽粒产量和WUE,沟播结合灌拔节水+开花水是华北平原冬麦区较适宜的节水种植方式.     

不同基质对四种沉水植物生长的影响

通过模拟试验,研究了太湖五里湖主要3种基质类型(沙石、生土、湖泥)对4种沉水植物(苦草、马来眼子菜、金鱼藻、轮叶黑藻)生长的影响. 结果表明,生长于沙石、生土、湖泥上的苦草和马来眼子菜平均生物量分别为72.37、126.25、134.10 g和40.0、72.10、90.70 g,而金鱼藻和轮叶黑藻平均生物量分别为0.27、6.58、73.64 g和0.17、3.26、84.42 g,说明湖泥较适合这四种沉水植物生长. 苦草和马来眼子菜对相对贫瘠的生土有较强的适应性,而金鱼藻和轮叶黑藻不适宜在生土中生长. 生长在沙石上的4种沉水植物的生物量和株高最低,其中金鱼藻和轮叶黑藻于试验期间死亡.苦草的根系活力(TTC)低于马来眼子菜,生长在沙石、生土、湖泥中苦草的根系活力分别为0、(0.16±0.05) mg·g^-1·h^-1和(0.36±0.33) mg·g^-1·h^-1,而马来眼子菜则分别为(2.68±0.34) mg·g^-1·h^-1、(2.30±0.77) mg·g^-1·h^-1、(5.24±0.67) mg·g^-1·h^-1. 叶绿素、质膜透性和丙二醛(MDA)的测定结果进一步证明了以上结论.此外,苦草、马来眼子菜和轮叶黑藻对基质有较强的沁氧能力,其大小顺序为苦草＞马来眼子菜＞轮叶黑藻.     

Decomposition of dominant submerged macrophytes: implications for nutrient release in Myall Lake, NSW, Australia

Breakdown and nutrient dynamics of submerged macrophytes were studied in Myall Lake, Australia. Mass loss of Myriophyllum sulsagineum was the lowest (64.90%) among the studied macrophytes during the 322 days followed by charophytes (60.79%), whereas Najas marina and Vallisneria gigantea lost 91.15 and 86.02% of their respective initial mass during that time. The overall exponential breakdown rates of Najas marina and Vallisneria gigantea were similar, with k-values of 0.24 and 0.23 day⁻¹, respectively. These rates were significantly higher than the break down rates of charophytes (0.007 day⁻¹) and M. sulsagineum (0.008 day⁻¹). During growth phase, water column depicted lower nutrient concentrations while during decay period, significant increase in water column nutrients resulted. Release of nutrients from decomposing macrophytes and incorporation of these nutrients into sedimentary phase as well as uptake of nutrients by the growing macrophytes, can present a considerable cycling pathway of nutrients in Myall lake system. The results of this study suggest that different submerged macrophytes may differ appreciably in quality and may exhibit different decomposition rates, patterns and nutrient dynamics in aquatic ecosystems in general, and Myall lakes in particular.     

Weight-density relationships in submerged macrophytes

Summary Crowded stands of submerged plants in Québec lakes have a weight-density with a shallower, but not significantly different, slope and an intercept 10 fold lower than those for terrestial stands. The examination of a larger data set including both freshwater and submerged macrophytes supported these differences. This data set suggested that those differences, as well as those among submerged stands, are largely attributable to the light levels incident upon the stand. The differences in weight-density relationships between submerged and terrestrial stands were paralleled by a smaller biomass per unit volume outgrown of the submerged plants, as predicted from the dimensional examination of the weight-density relationship. The variations in biomass per unit volume associated to differences in the species growth form explained deviations about the weightdensity relationship of stands growing under relatively similar light conditions.Contribution No. 201 to the Lake Memphremagog project, McGill Limnology Research Centre     

Allelopathic activity of volatile substance from submerged macrophytes on Microcystin aeruginosa

Considerable attention has been paid on the allelopathic potential of aquatic macrophytes against blue-green algae. This study compared inhibitory activity of volatile compounds that were contained in two submerged macrophytes, Ceratophyllum demersum and Vallisneria spiralis, on Microcystin aeruginosa. When the concentration of essential oils was 100 mg/L, the antialgal activities for fresh macrophytes were similar between C. demersum and V. spiralis but stronger than those for dry macrophytes. Essential oils from C. demersum in dry macrophytes showed stronger antialgal activity than those from V. spiralis. There exists a positive correlation between the concentration of the essential oils and the inhibitory activity. The essential oils were composed of fatty compounds, terpenoids, phenolic compounds, phthalates, and some unknown compounds. More than 40% of the essential oils from fresh macrophytes were composed of phthalates, whereas approximately 70% of those from dry macrophytes were composed of lipid compounds and terpenoids. However, approximately 20% of the essential oils from fresh macrophytes were composed of unknown compounds, which were unstable and undetectable in dry macrophytes. Therefore, their chemical structures and bioactivities need further study.     

用镶嵌组合植物群落控制湖泊饮用水源区藻类及氮污染

依据湖泊中不同生态类型水生高等植物的微生境特点,设计建造了由漂浮、浮叶、沉水植物为优势种的斑块小群丛构成的镶嵌组合水生植物群落（ＭｏｓａｉｃＣｏｍｍｕｎｉｔｙｏｆＭａｃｒｏｐｈｙｔｅｓ：ＭＣＭ）,并在太湖五里湖一湖湾内以动态模拟试验,从群落水平研究了水生高等植物群落对富营养化湖泊饮用水源区湖水的净化能力。结果表明,富营养化湖水经ＭＣＭ净化后,藻类生物量（以Ｃｈｌａ计）下降５７７％,藻类数量下降２～３个数量级,氨氮下降６６７％,总氮下降６００％,水质得到明显改善。与以该湖湾湖水为水源的水厂出水相比,经ＭＣＭ净化的湖水其氨氮比水厂出水的氨氮平均低４５１％,总氮低３７３％,可见经ＭＣＭ净化的湖水部分指标优于同源的自来水。综合群落的微生境特征及水生高等植物群落内硝化反硝化细菌分布特点,探讨了ＭＣＭ的除氮机理。     

Mechanisms regulating abundance of submerged vegetation in shallow eutrophic lakes

Shallow eutrophic lakes tend to be either in a turbid state dominated by phytoplankton or in a clear-water state dominated by submerged macrovegetation. Recent studies suggest that the low water turbidity in the clear-water state is maintained through direct and indirect effects of the submerged vegetation. This study examined what mechanisms may cause a recession of the submerged vegetation in the clear-water state, and thereby a switch to the turbid state. The spatial distribution of submerged vegetation biomass was investigated in two shallow eutrophic lakes in the clear-water state in southern Sweden. Biomass of submerged vegetation was positively correlated with water depth and wave exposure, which also were mutually correlated, suggesting that mechanisms hampering submerged vegetation were strongest at shallow and/or sheltered locations. The growth of Myriophyllum spicatum, planted in the same substrate and at the same water depth, was compared between sheltered and wave exposed sites in two lakes. After 6 weeks the plants were significantly smaller at the sheltered sites, where periphyton production was about 5 times higher than at the exposed sites. Exclosure experiments were conducted to evaluate the effects of waterfowl grazing on macrophyte biomass. Potamogeton pectinatus growth was decreased by grazing, whereas M. spicatum was not affected. The effects were greater at a sheltered than at a wave-exposed site, and also negatively related to distance from the reed belt. These results suggest that competition from epiphytes and waterfowl grazing hamper the development of submerged vegetation at sheltered and/or shallow locations. An increased strength of these mechanisms may cause a recession of submerged vegetation in shallow eutrophic lakes in the clear-water state and thereby a switch to the turbid state. Received: 24 June 1996 / Accepted: 8 September 1996     

Community collocation of four submerged macrophytes on two kinds of sediments in Lake Taihu, China

To explore a method for rapid restoration and artificial regulation of submerged macrophytes in large-scale restoration of eutrophic lakes, the succession and the biodiversity changes of four communities composed of four native, common submerged macrophytes, Hydrilla verticillata, Potamogeton malaianus, Vallisneria spiralis and Najas marina, on two kinds of sediments were investigated. Under low light intensity (reduced by 99%), the plant biomass changed with seasonal changes, plant competition, and environmental stress. The competitive capability for light differed in the four species due to different shoot height and tiller number. After 405 days of transplantation, H. verticillata became dominant in all communities. The biomass of H. verticillata, with strong ability to endure low water light environment, accounted for more than 90% of the total community biomass, and P. malaianus had only weak growth, while V. spiralis and N. marina almost disappeared. Based on livability and biomass of submerged macrophytes on two sediment types, brown clay sediment appeared to be more favorable for the settlement of the plants, while fertile sludge sediment was suitable for vegetative growth. In conclusion, the improvement of habitats and the selection of appropriate plant species are of the greatest importance for ecological restoration of the aquatic ecosystem.     

Snail herbivory on submerged macrophytes and nutrient release: Implications for macrophyte management

Radix swinhoei (H. Adams) is a freshwater snail commonly found in shallow regions of Lake Taihu. This research estimated, based on experiments, the consumption rates of R. swinhoei on three young submerged plants (Vallisneria spiralis, Hydrilla verticillata and Potamogeton malaianus) and its rates of nutrient release. Results showed that the snails consumed V. spiralis at the highest rate (23.34 mg g⁻¹ d⁻¹), P. malaianus at a lower rate (11.97 mg g⁻¹ d⁻¹), and H. verticillata at the lowest rate (7.04 mg g⁻¹ d⁻¹). The consumption rates on V. spiralis varied significantly, with snail size, ranging from 13.63 mg g⁻¹ d⁻¹ for large-size snails to 143.42 mg g⁻¹ d⁻¹ for small-size ones.The average nutrient release rates of snails grazing on different macrophytes were 45.93 μg PO₄-P and 0.58 mg NH₄-N g⁻¹ d⁻¹. The food species had a significant effect on NH₄-N release rates but not on PO₄-P. However, the snail size had a significant effect on PO₄-P release rates and not on NH₄-N. The present study indicates that through selective grazing and nutrient release, snails may impose a significant impact on the macrophyte community, which should be considered in managing the macrophytes of a lake.     

Regulation of photosynthetic rates of submerged rooted macrophytes

Summary Fourteen temperate, submerged macrophytes were cultivated in the laboratory at high DIC levels (3.3–3.8 mM), 10.4–14.4 mol photons (PAR) m^-2 d^-1 and 15°C. Photosynthesis at photosaturation ranged between 0.59 and 17.98 mg O₂ g^-1 DW h^-1 at ambient pH (8.3) and were markedly higher between 1.76 and 47.11 mg O₂ g^-1 DW h^-1 at pH 6.5 under elevated CO₂ concentrations. Photosynthetic rates were significantly related to both the relative surface area and the chlorophyll content of the leaves. Consequently, the photosynthetic rate was much less variable among the species when expressed per surface area and chlorophyll content instead of dry mass. The chlorophyll content was probably a main predictor of photosynthesis of submerged leaves because of the direct relationship of chlorophyll to the light harvesting capacity and/or a coupling to the capacity for photosynthetic electron transport and carboxylation. A comparison with terrestrial leaves characterized the submerged leaves by their low chlorophyll concentrations and low photosynthetic rates per surface area due to the thin leaves. Photosynthetic rates per chlorophyll content in submerged leaves at CO₂ saturation, however, were at the same level as photosynthesis in terrestrial leaves measured at ambient CO₂ when appropriate corrections were made for differences in incubation temperature.     

Effects of water velocity on photosynthesis and dark respiration in submerged stream macrophytes

The effects of flow velocities on dark respiration and net photosynthesis of eight submerged stream macrophytes were examined in a laboratory oxygen chamber. The shoots/leaves were exposed to saturating free-CO₂ concentrations and were attached basally so that they could move in the flowing water. Net photosynthesis declined by 34–61% as flow velocity increased from 1 to 8.6cm s^?1, while dark respiration increased 2.4-fold over the same range. The increase in dark respiration could only account for between 19 and 67% of the decrease in net photosynthesis. The relationship between flow velocity (U) and net photosynthesis (P) was described by: P=b×U^a. The exponent, a, varied from -0.20 to –0.48 and showed a negative correlation to the surface: volume (SA: V) ratio of the plants, i.e. species with high SA: V ratio were more sensitive to flow. In contrast, net photosynthesis of plants firmly attached to a supporting frame was not significantly affected by increasing flow velocity. This result indicates that the physical stress imposed on the plants by agitation or stretching in the flowing water is a key factor for the observed response.