海水处理下长春花体内生物碱含量增加

A sand culture experiment was conducted to determine the effects of different seawater (5% and 10%) treatments on plant growth, inorganic ions, indole alkaloid concentrations and yields of Catharanthus roseus, in an effort to increase the alkaloid yield by artificial cultivation. The total fresh and dry weights and tissue K⁺ concentrations decreased, but Na⁺ concentrations increased in the plant roots, stems and leaves of C. roseus under seawater stress as compared to the control. The concentrations and yields of vindoline, catharanthine, vinblastine and vincristine increased under seawater stress. The concentrations and yields of these alkaloids were higher in 5% seawater-treated plants than those in the 10% seawater-treated plants. Considering the industrial production, 5% seawater treatments could reduce the cost of producing alkaloid. In the control plants, the highest alkaloid concentrations reached a peak at 100 days after planting, suggesting that plant harvest must be optimized in terms of growth duration.     

稀释海水灌溉的芦荟中矿质营养与有效成分分布情况研究

With increasing demand for irrigation water, agricultural scientists and planners pay more attention to the utilization of diluted seawater as an alternative source for irrigation of crops. A greenhouse pot experiment was conducted to study how seawater stress（SS） affects growth, water content, cationic accumulation, and active ingredients in leaves of Aloe vera after 30 d of growth in nutrient media with 0%（control）, 22%（22% SS）, and 42%（42% SS） seawater stress. Results indicated the SS did not change dry biomass of leaves and stems, but gradually decreased biomass allocation to roots with increasing seawater stress. Na^＋ and Cl^- in A. vera plant did not increase obviously with a big increase in seawater percentage due to low transpiration of Aloe vera. 42% SS decreased N concentration in most plant organs, but did not change or increased P concentration. Seawater stress tended to decrease concentrations of K^＋ and Ca^2＋ in A. vera. However, seawater salinity tended to increase the concentrations of aloin concentration in top（young） and middle leaves, and there was no significant effect of both stresses on aloin concentration in base（old） leaves. The 42% SS treatment decreased polysaccharide concentrations only in the base leaves, but not in top and middle leaves. In summary, supplying suitably diluted seawater for 30 d could increase the qualities and value of A. vera, without substantial effects on shoot dry biomass production.     

两种菊芋耐盐差异研究

To explore genetic variability for two Jerusalem artichoke (Helianthus tuberosus) cultivars, N1 (the sixth-generation cultivated with 75% seawater irrigation for six years) and N7 (a general variety), a experiment was conducted to study the changes in physiological attributes under different concentrations (0%, 10% and 25% of seawater concentration in greenhouse and 0%, 30% and 50% of seawater concentration in the field) of seawater salinity stress. In the greenhouse experiment, decreases of dry growth rate, but increases of dry matter percentage and membrane injury occurred in both the genotypes at 10% and 25% seawater treatments, although lesser cell membrane damage was observed in N1 than N7. N1 accumulated greater contents of Na⁺, Cl^-, soluble sugar and proline in leaves compared with N7. In the field experiment, the yields of shoot, root and tuber, and the contents of total-sugar and inulin in tubers of N1 were higher than those of N7. Lesser degree of salt injury in N1 indicated that the relatively salt-tolerant cultivar had higher K⁺/Na⁺ ratio, lower Na⁺/Ca²⁺ ratio, and the salt-induced enhancement of osmotic adjustment.     

基于光谱稳定目标的经验线性大气校正方法研究

By using speetrally stable targets, the empirical line （EL） method was tested to correct the multispectral IKONOS imagery acquired over Putuo Mountain, Zhejiang, China. A series of calibration targets, which were spectrally stable over time, were selected to establish the linear predicted equation. Subsequently, a series of spectrally stable validation targets were selected to assess the accuracy of the equations. And, validation targets, which were speetrally unstable over time, were used to test the feasibility of using the EL method to calibrate the archival remotely sensed data. Ground reflectance measurements for each target were made using an ASD FieldSpec spectroradiometer. A Trimble GeoXTTM GPS unit with sub-meter accuracy was used to estimate the target position accurately. Linear regression equations for four tKONOS bands were derived. The coefficients of determination for the blue, green, and red bands were all greater than 0.9800 and it was 0.9697 for the near infrared band. It was concluded that reasonable results could be obtained by using speetrally stable targets.     

华北平原海水灌溉对土壤性质和菊芋产量的影响

Irrigation with various dilutions of seawater can act as an alternate water resource and thus plays an important role in saving freshwater resources as well as promoting agriculture in the coastal semi-arid areas of the North China Plain. Jerusalem artichoke （Helianthus tuberosus L.） grown in a field experiment was irrigated with seawater diluted with freshwater from 2001 to 2003 to determine the feasibility of seawater irrigation in the Laizhou area. For treatments of CK （non-irrigation） along with seawater concentrations of 25%, 50%, and 75%, total dissolved solid （TDS） in the non-irrigated soil significantly increased （P ≤ 0.05） in both 2002 and 2003 and was 1.3 times higher in 2003 than in 2001. In the 25% and 50% seawater concentration treatments, TDS in 2001 was significantly greater （P ≤ 0.05） than CK; however, TDS in these two treatments decreased by 34.9% and 40.1%, respectively, in 2003 compared with 2001. The sodium adsorption ratio （SAR） remained below 10 mmol^1/2 L^-1/2, indicating that alkalization was low with seawater irrigation. In 2001 and 2002, compared to CK and the irrigation treatment with 75% seawater, irrigation with 25% and 50% seawater increased the yields of Jerusalem .artichoke. This meant that Jerusalem artichoke could be safely grown in salt-affected land of Laizhou area with 25% and 50% seawater irrigation.     

海水胁迫对5种生态型菊芋生理生化的影响

Three treatments consisting of 0%, 15%, and 30% seawater were investigated to analyse the ecotypic variabilities among five populations of Jerusalem artichoke (Helianthus tuberosus)regarding their responses to seawater stress under a hydroponic culture system. Analyses were done 2, 4, and 6 days after treatments. The 15% and 30% seawater treatments reduced the growth rates of roots and shoots of H. tuberosus populations. The activities of superoxide dismutase, peroxidase, and catalase majored in the leaves were stimulated under the seawater stress. The electrolyte leakage and malondialdehyde contents of the leaves were also stimulated owing to seawater stress. The contents of proline and soluble-sugars in the leaves increased significantly with increasing seawater concentrations. The concentrations of Na⁺, K⁺, and Cl^- in the aerial parts and roots increased with an increase in the seawater concentration throughout the experimental period. There were ecotypic differences among the five populations of H. tuberosus as evidenced by the analyses of the above items in both aerial parts and roots under seawater treatment. The magnitude of the ecotypic variance components indicated that a substantial proportion of the total variation for these physiological and biochemical responses were owing to ecotype, indicating the possibility of improvement through hybridization and selection.     

莱州湾海涂海水灌溉菊芋的磷肥效应的研究

在连续3年莱州湾海涂海水灌溉试验的基础上,2003年就不同浓度海水灌溉菊芋的磷肥效应进行了田间试验研究。结果表明,在海水灌溉下,磷肥对菊芋的增加产量与增产幅度均高于淡水灌溉,在50%海水浓度范围内,随着灌溉海水浓度增加磷肥的增产效应也逐渐提高,以50%浓度海水灌溉磷肥增产效应最大;海水灌溉下,施磷肥能显著促进菊芋对K+、Ca2+和Mg2+等有益离子的吸收与运输,尤其是明显提高菊芋在海水灌溉下的SK,Na,而抑制菊芋对Na+及Cl-等有害离子的吸收;在75%的海水浓度范围内,灌溉的海水浓度越高,磷肥对上述离子的影响强度越大;海水灌溉下,施用磷肥明显促进菊芋根部氮的含量,P3(P2O560kg/hm2)与P1(P2O50kg/hm2)处理相比较,在淡水、25%海水、50%海水、75%海水灌溉处理下,菊芋根部含氮量增加0.43、0.64、0.64、0.51个百分点。     

驯化处理对海水胁迫下玉米幼苗生长特性的影响

为了探讨海水灌溉时提高植物耐受盐分胁迫的有效调节措施,以抗性玉米品种农大108为材料,研究了用20%和70%海水分别驯化的萌发种子和萌发期幼苗在生长后期50%海水胁迫过程中某些生理指标的变化。结果表明：在海水处理过程中,叶绿素和类胡萝卜素含量、光合速率和幼苗鲜质量明显下降,其中种子驯化能减弱胁迫对上述特性的不利影响,70%海水驯化种子缓解了对叶绿体色素和光合作用的破环,20%海水驯化种子减轻了幼苗鲜质量的降低;叶绿素a/叶绿素b(chla/chlb)、根系活力、幼苗干质量和根冠比明显上升,其中驯化处理有利于胁迫下幼苗根系活力和根冠比的升高,20%海水驯化种子促进了幼苗干质量和根冠比的增加,70%海水驯化幼苗对chla/chlb和根系活力的促进作用比20%海水驯化种子稍微明显一些。说明在不同发育阶段采取合理的驯化方式可以提高植物生长过程中对海水胁迫的适应能力,从而改善植物对灌溉海水的利用效率。     

外源一氧化氮对镉胁迫下长春花质膜过氧化、ATPase及矿质营养吸收的影响

重金属污染已成为全球范围的主要问题之一,其中土壤镉（Cd）污染已成为当今社会普遍关注的问题。镉是植物生长发育的非必需元素,极小浓度即可产生较大危害。一氧化氮（NO）是一种氧化还原信号分子和活性氮（RNS）, 参与植物对重金属镉胁迫的应答。长春花（Catharanthus roseus）是我国广泛栽培的兼具园林绿化和抗癌药源等有重要价值的多年生草本花卉植物。为了解镉胁迫下外源NO 对园林地被植物生理响应的调控机制,采用盆栽试验研究了外源NO（硝普钠SNP）对镉胁迫下长春花幼苗生长、 活性氧代谢、 质膜ATPase酶和5'-核苷酸酶活性以及矿质营养元素吸收的影响。结果表明, 25 mg/kg 镉胁迫严重抑制长春花幼苗的生长,显著增加地上部和根系镉的富集量,抑制对大量元素和微量元素的吸收。施加0.45、 0.90、 1.80 mg/kg 的SNP显著降低镉从根系向地上部的转运,缓解因镉胁迫对钾（K）、 钙（Ca）、 镁（Mg） 和 铁（Fe）、 铜（Cu）、 锌（Zn） 吸收产生的抑制效应,降低镉胁迫的毒害作用,促进植物生长。镉胁迫下,丙二醛（MDA）含量和活性氧（O2和H2O2）水平显著升高。施加低浓度 SNP 能够显著缓解细胞质膜过氧化,降低硫代巴比妥酸反应产物（TBARS）堆积,且对抗氧化酶和ATPase酶具有相同作用。添加0.45、 0.90、 1.80 mg/kg 的SNP 可提高镉胁迫下长春花地上部和根系的抗氧化酶［过氧化氢酶（CAT）、 超氧化物歧化酶（SOD）、 过氧化物酶（POD）］活性与抗氧化物（还原型谷胱甘肽GSH）含量,诱导质膜H+-ATPase、 Ca2+-ATPase和 5-AMPase 活性提升到正常水平（对照CK）。添加1.80 mg/kg 的SNP对镉毒害的缓解作用最有效,而添加3.60、 7.20 mg/kg 的SNP的处理则无明显效果。     

Effects of Zeolite on Soil Nutrients and Growth of Barley Following Irrigation with Saline Water

ABSTRACT

Soil salinity is a major abiotic factor limiting crop production but an amendment with synthetic zeolite may mitigate effects of salinity stress on plants. The objective of the study was to determine the effects of zeolite on soil properties and growth of barley irrigated with diluted seawater. Barley was raised on a sand dune soil treated with calcium type zeolite at the rate of 1 and 5% and irrigated every alternate day with seawater diluted to electrical conductivity (EC) levels of 3 and 16 dS m^?1. Irrigation with 16 dS m^?1 saline water significantly suppressed plant height by 25%, leaf area by 44% and dry weight by 60%. However, a substantial increase in plant biomass of salt stressed barley was observed in zeolite-amended treatments. The application of zeolite also enhanced water and salt holding capacity of soil. Post-harvest soil analysis showed high concentrations of calcium (Ca^{2 +}), magnesium (Mg^{2 +}), sodium (Na⁺), and potassium (K⁺) due to saline water especially in the upper soil layer but concentrations were lower in soils treated with zeolite. Zeolite application at 5% increased Ca^{2 +} concentration in salt stressed plants; concentrations of trace elements were also increased by 19% for iron (Fe^{2 +}) and 10% for manganese (Mn^{2 +}). The overall results indicated that soil amendment with zeolite could effectively ameliorate salinity stress and improve nutrient balance in a sandy soil.     

Desalination of sea water by akadama soil and akadama soil-inorganic adsorbents mixtures

(pp. 33–39)

The purpose of this study is to investigate utilization of Akadama soil and evaluate its ion removal efficiency for seawater desalination. The chemical composition of the Akadama soil was Al₂₀₃ 0.334 kg kg^?1, SiO₂ 0.470 kg kg^?1, Fe₂₀₃ 0.157 kg kg^?1 by weight. X-ray powder diffraction pattern, electron diffraction pattern and IR spectrum of Akadama soil showed that allophane was the main phase and low crystallinity kaolin was generated from the allophane. The column method was carried out to evaluate seawater desalination efficiency, the best mixture ratio of the Akadama soil (particle size was less than 250 m), aluminum silicate adsorbent, aluminium magnesium adsorbent, and magnesium oxide adsorbent was 3:1:1:1. Removal percentages of Na⁺, Mg²⁺, Ca²⁺, K⁺ and Cl^? from artificial seawater were 87.7, 84.4, 91.1, 97.3 and 90.7%, respectively. In the batch method, where the mixed adsorbent was used for removal of heavy metals from 20 mg L^?1 solution, the removal percentages of Cu²⁺, Ni²⁺, Mn²⁺, Zn²⁺, Cd²⁺ and Pb²⁺ were higher than 98%. The removal percentage of PO₄ from river water was 100%.     

Growth and nutrient uptake of tomato in response to application of saline water,biological fertilizer,and surfactant

The importance of using low-quality water, such as saline waters, for food production has been increased in the recent decades. An experiment was conducted to evaluate the effect of diluted seawater (electrical conductivity (EC) of 6 dS m^?1) on growth and nutrient uptake of tomato. We examined if surfactant (0, 1, 2, 4 mg L^?1) and biological fertilizer (compost tea + arbuscular mycorrhizal fungi propagules) have potential to alleviate the adverse effects of salinity on tomato plant. Salinity stress significantly reduced all plant growth parameters. Under salinity stress, nitrogen (N) and potassium (K) contents in tomato shoot were lower, while phosphorus (P), sodium (Na), and calcium (Ca) contents were higher than non-salinized plants; showing ionic imbalance in this condition. Biological fertilizer improved root weight in saline condition. Under salinity stress surfactant application at the rate of 1 mg L^?1 helped tomato plants to maintain their ionic balance, especially declining Na uptake, and improved plant growth.     

不同品种菊芋对海水处理响应的生理指标筛选

试验采用温室水培试验的方法，系统评价了7个典型品种菊芋对0.15％，30％海水的响应，并对不同品种菊芋对海水处理响应的生理指标进行了筛选。结果表明：在15％和30％海水处理下地上部和根鲜重、干重、含水率较对照降低，30％海水处理下更显著，而地上部和根Na^＋和Cl^-含量随海水浓度增加显著增加，在15％和30％海水处理下菊芋幼苗地上部和根K^＋含量均高于对照处理。菊芋幼苗地上部和根鲜重和干重与根部Na^＋含量呈极显著负相关，地上部和根鲜重与地上部和根部Cr含量呈显著负相关，地上部和根干重与地上部和根部K^＋含量呈显著正相关。根据菊芋在海水处理下的表现分为3种类型：高度耐海水型、中度耐海水型和低度耐海水型。在评价不同基因型菊芋对海水的响应时，地上部和根鲜重、干重及含水率的下降幅度和Na^＋、K^＋和Cl^-含量可作为主要的生理指标。     

半干旱地区海涂海水灌溉菊芋盐肥耦合效应的研究

在山东莱州海涂采用正交试验设计进行田间试验,研究了不同浓度海水灌溉下菊芋盐肥耦合效应。结果表明:(1)综合肥水情况下,在25%海水(W2)灌溉下菊芋块茎和地上部分生物产量与淡水处理(W1)没有显著差异,在50%(W3)和75%(W4)海水灌溉下产量均显著下降,与淡水比较,下降幅度达32%、76%和25%、60%;N3(150 kg hm-2)水平与N1(0 kg hm-2)水平相比,菊芋块茎产量可以显著提高77%,同样地上部分生物产量也提高了37%,而N4(225 kg hm-2)处理比在N3情况下低,但仍高于N2(75 kg hm-2)处理;P3(60 kg hm-2)水平与P1(0 kg hm-2)水平相比,菊芋块茎产量可以显著提高97%,同样地上部分生物产量也提高了39%,在P4(90 kg hm-2)处理下,菊芋块茎和地上部分生物产量分别比在P3处理下低19%和11%。(2)各浓度海水浇灌下,随着施氮、磷量的增加菊芋主茎普遍增长和增粗。(3)经过对海水与N肥及P肥的交互作用分析,可以看出W2N3和W2P3是优化组合;处理因子分析表明,影响菊芋产量的主要因素是不同浓度海水灌溉,N肥和P肥次之,其优化组合为W2N3P3。     

黄河三角洲海水灌溉对土壤盐碱化和导水率的影响

为研究海水灌溉对土壤盐碱化和导水率的影响，该文在黄河三角洲滨海盐渍土上采用75%的海水于田间小区进行3年灌溉试验，分析了海水灌溉前后土壤含盐量、土壤盐碱化的各项指标、土壤中各种离子和饱和导水率的变化，结果表明：采用75%的海水灌溉后土壤剖面中盐分含量明显升高，在土层80 cm以下有盐分积累的现象；而饱和导水率减小；土壤的pH值在海水灌溉前后变化不大；残余碳酸钠(RSC)的变化也较小；土壤的钠吸附比(SAR)和碱化度(ESP)在3年海水灌溉后上升较大，已经超过了碱化土壤的临界值，并均与土壤中的盐分含量呈对数曲线变化。在黄河三角洲地区运用海水灌溉可能会对土壤资源安全产生影响，海水灌溉必须防治次生盐渍化和土壤碱化的发生。     

Seawater‐irrigation effects on growth,ion concentration,and photosynthesis of transgenic poplar overexpressing the Na+/H+ antiporter AtNHX1

Tonoplast Na⁺/H⁺ antiporters increase the salt resistance of various plant species, but very little is known about the role of these antiporters in the salt resistance of trees. Understanding the physiological responses of plants to salinity stress is of paramount importance in examining the salt resistance of transgenic plants. In this study, the wild‐type poplar (WT; Populus × euramericana var. Neva) and its transgenic varieties (TR) that overexpress the AtNHX1 gene were exposed to various seawater concentrations (0%, 10%, 20%, and 30%) for 30 d to determine the effects of seawater on seedling growth, ion content, and photosynthetic productivity. Results show that TR plants grew much better than WT under saline conditions. Differences between WT and TR in most parameters were significant after 30 d exposure to 20% and 30% seawater concentrations. The dry weight of TR was higher than that of WT for each seawater treatment. Transgenic variety was able to maintain higher photosynthetic ability than WT upon exposure to salinity and maintained higher K⁺ concentrations and K⁺ : Na⁺ ratio but had less Cl^– compared with WT. This suggests that AtNHX1 has a critical role in the regulation of K⁺ homeostasis, which in turn affects plant K⁺ nutrition and salt resistance.     

The effects of vermicompost tea on the growth and yield of lettuce and tomato in a non-circulating hydroponics system

The use of vermicompost water extracts (teas) in horticulture to increase plant growth and yield and suppress pests and diseases, is well documented. However, its utilization and effects in hydroponics systems are unknown. Low concentrations of vermicompost teas, produced from food wastes, at rates of 1.6% and 3.2% for lettuce and 0.14%, 0.28% and 0.56% for tomatoes were investigated as additive and supplement in static hydroponic systems. Vermicompost teas significantly increased lettuce yields when concentrations of nutrient solutions were reduced to 25% and 50% of the recommended full rate for nutrient solutions compared to treatments without vermicompost teas. Even lower concentrations of vermicompost teas increased tomato yields significantly as a supplement in reduced nutrient solutions of 50%. The presence of a combination of trace amounts of plant hormones such as auxins, cytokinins, gibberellins and humic acids in vermicomposts teas are likely the responsible factor that increased yields of lettuce and tomato in static hydroponics systems with lower concentrations of nutrient solutions.     

Critical potassium concentration and potassium/ calcium plus magnesium ratio in potato petioles associated with maximum tuber yields

In order to establish critical potassium (K) concentration levels and K/calcium (Ca) plus magnesium (Mg) [K/Ca+Mg] ratios in potato petioles associated to maximum total tuber yields, an experiment was conducted under Brazilian conditions. Six K levels (0, 60, 120, 240, 480, and 960 kg K₂O/ha as potassium sulphate) were applied in a randomized complete block design experiment with four replications. Baraka potato tubers were seeded, spaced 0.8 x 0.3 m, following the agronomic cultural practices recommended for the crop. After 48 days from plant emergence, plant tissue samples was collected from each plant, the youngest fully expanded leaves (YFEL) and the oldest but not senescent leaves (ONSL). Petioles from these leaves were analysed to their K, Ca, and Mg contents. At harvest, total, high grade, and weight tuber yields were increased to 733, 719, and 660 g/plant for the 353, 335, and 384 kg K₂O/ha levels, respectively. These yields are double the Brazilian potato yield average. Petiole Ca and Mg concentrations were decreased by the K fertilizer treatments, whereas the opposite occurred with the K/Ca+Mg ratio. Potassium concentrations in the petioles from the YFEL and ONSL increased up to 10.44 and 7.13 g K/100 g petiole dry matter at the 672 and 654 kg K₂O/ha levels, respectively. The K petiole gradient concentration was not affected by K fertilization. The K/Ca+Mg ratio for YFEL associated with the maximum total tuber yield was 7.24, while the K concentrations were 8.91 and 6.16 g K/100 g dry matter in petioles for the YFEL and ONSL, respectively.     

封闭循环海湾扇贝育苗系统水处理工艺与运行效果研究

为确定封闭循环海水育苗系统的水处理工艺流程，了解各水处理单元的运行效果及育苗水体的水质状况，建立了一套100 m³育苗水体的生产中试系统。以海湾扇贝为实验生物进行苗种循环水培育试验，试验过程中跟踪监测各水处理单元进出水口处目标污染物的浓度，并长期监测育苗池中各理化因子水质指标。监测结果说明生物滤池能有效去除氨氮、亚硝酸氮和COD，同时各水处理单元联合对SS的去除率达80%。育苗池中氨氮、亚硝酸氮和COD的长期统计平均值分别为0.023、0.004和1.43 mg/L，水质优良。这证明该系统水处理工艺可行，能有效去除目标污染物。     

种植翻压二月兰配施化肥对春玉米养分吸收利用的影响

研究了华北地区种植翻压冬绿肥二月兰（Orychophragmus violaceus L.）后,在当地习惯施肥基础上玉米减量施肥措施对春玉米产量及养分吸收利用的影响。试验设不施肥（F0）、 习惯施肥（F100）、 单施绿肥（F0+G）以及绿肥与不同比例的化肥配施（化肥习惯用量的70%、 85%、 100%）（F70+G、 F85+G、 F100+G）6个处理。结果表明,施用化肥和化肥绿肥配施均能显著提高春玉米产量,增加地上部总养分量和不同器官养分的累积量,改善养分在不同器官中的分配比例。与F0比较, F100、 F70+G、 F100+G 和F85+G处理的春玉米产量分别增加101.4、 108.4、 115.5和130.4 g/plant,增幅达120.9%、 129.2%、 137.6%和155.3%。翻压绿肥后,化肥减量15%的处理（F85+G）春玉米子粒产量增加29.0 g/plant、 地上部吸氮量增加0.65 g/plant,显著高于单施化肥处理F100;绿肥配施100%的化肥和化肥减量30%的处理（F100+G、 F70+G）玉米生物量、 养分吸收量与习惯施肥（F100）无明显差异。翻压绿肥配施不同比例化肥的 3个处理与F100相比玉米子粒养分累积量及分配比例没有明显差异。