叶面喷施不同形态硒对草莓吸收和转运硒的影响

采用温室大棚试验,研究了叶面喷施硒酸钠和亚硒酸钠对提高草莓硒含量的影响以及硒在草莓植株中的转运和分布,旨在为富硒水果的开发和生产提供理论依据。本试验在草莓初花期进行叶面喷施亚硒酸钠和硒酸钠,当喷硒量为20、40、60 g Se·hm~(-2)时,亚硒酸钠处理40 d后草莓果实样品中硒含量分别为0.03、0.10、0.15 mg·kg~(-1)FW,分别为对照的3、20倍和30倍;硒酸钠处理40d后草莓果实硒含量分别为0.05、0.12、0.17 mg·kg~(-1) FW,是对照处理的5、24倍和34倍。但是叶面喷施的硒持续供给果实的能力有限,随着草莓果实的连续生长,后期采收的草莓中硒含量显著下降。叶面喷硒后,叶片吸收的亚硒酸钠约有30%转移到了根部,而硒酸钠则更多地累积于叶片中,转移到根部的量不到15%。草莓初花期叶面喷施硒可以显著提高前期草莓果实中硒的含量,随着采收期的延长,草莓中硒的含量显著下降,喷施亚硒酸钠的处理硒向根部转移的能力高于硒酸钠的处理。     

黑麦草对硒的吸收、分配与累积

用营养液培养方法研究了黑麦草(Lolium.multiflorum,Lamaubada)对硒的吸收、分配和累积特征以及硒对黑麦草生物量的影响,以探讨黑麦草对硒的吸收和利用规律。结果表明,不同SeO32--Se浓度处理的黑麦草在不同生育期的硒含量大小顺序均表现为分蘗期拔节期抽穗期苗期,且其差异在低硒浓度([Se4+]0.05.mg／L)时表现不明显,在非中毒范围内,黑麦草体内含硒量随供硒水平的提高而增加。在不同硒浓度处理中,黑麦草不同器官的硒含量大小顺序均为根叶茎,黑麦草吸收的SeO32--Se大部分在根部累积,少部分转移到茎与叶中,SeR／SeL3,SeR／Ses4。当营养液中加入低浓度硒([Se4+]=0-0.1.mg／L)时促进了黑麦草的生长,其生物量随外源硒浓度的增大而增加;高浓度硒([Se4+]1.0.mg／L)时抑制黑麦草的生长甚至引起中毒死亡。抽穗期黑麦草对硒的阶段累积率最大,达40.42％。     

叶面施硒对黑豆硒吸收转运特征及籽粒硒形态的影响

为了明确叶面喷施亚硒酸钠对黑豆硒吸收转运特征及籽粒硒形态的影响,采用小区试验在黑豆结荚兴盛期进行一次性叶面喷施亚硒酸钠(施硒量分别为0、6、12、18和24 mg·m^-2)处理,分析比较不同浓度亚硒酸钠处理下黑豆产量、各器官硒含量、籽粒有机硒转化率和品质性状的差异。结果表明,各施硒水平对黑豆各器官总硒含量均有提升作用,在24 mg·m^-2硒处理时各器官总硒含量最大,根、茎、荚和籽粒硒含量分别较对照提高了8.74、8.37、9.85和65.21倍,硒处理后各器官总硒含量呈现籽粒>根≈荚>茎的特点。籽粒中硒以有机硒形态存在,且有机硒转化率随着亚硒酸钠浓度的增加呈下降趋势,在0、6、12、18和24 mg·m^-2施硒处理时,有机硒含量分别为0.071 4、1.101 8、1.510 6、1.811 1和2.093 5 mg·kg^-1,有机硒转化率分别为94.52%、84.81%、70.30%、60.11%和52.43%。叶面喷施亚硒酸钠显著提高了黑豆籽粒蛋白质含量和分离蛋白硒含量,但对脂肪含量的影响较小,在24 mg·m^-2硒处理时蛋白质含量和分离蛋白硒含量分别较对照增加了2.4个百分点和117.35倍,分离蛋白硒含量占有机硒和总硒含量的比例分别为90.29%和47.39%。适宜浓度亚硒酸钠叶面喷施对黑豆产量具有促进作用,但浓度过高导致增产效果减弱。综上,叶面喷施亚硒酸钠可提高黑豆各器官总硒含量,但黑豆籽粒有机硒转化率随喷施浓度的增加呈下降趋势,且黑豆籽粒有机硒主要以蛋白质形式存在。本研究结果为应用外源硒强化技术生产富硒黑豆提供了科学依据。     

缺铁水稻根表铁膜对硒的转运和吸收的影响

Under anaerobic conditions, ferric hydroxide deposits on the surface of rice roots and affects uptake and translocation of certain nutrients. In the present study, rice plants were cultured in Fe-deficient or sufficient solutions and placed in a medium containing selenium （Se） for 2 h. Then, FeSO4 was added at the various concentrations of 0, 10, 40, or 70 mg L-1 to induce varying levels of iron plaque on the root surfaces and subsequent uptake of Se was monitored. The uptake of Se was inhibited by the iron plaque, with the effect proportional to the amount of plaque induced. The activity of cysteine synthase was decreased with increasing amounts of iron plaque on the roots. This may be the important reason for iron plaque inhibition of Se translocation. At each level of iron plaque, Fe-deficient rice had more Se than Fe-sufficient rice. Furthermore, with plaque induced by 20 mg Fe L-1, plants from Fe-deficient media accumulated more Se than those from Fe-sufficient media, as the Se concentration was increased from 10 to 30 or 50 mg L^-1. We found that phytosiderophores, highly effective iron chelating agents, could desorb selenite from ferrihydrite. Root exudates of the Fe-deficient rice, especially phytosiderophores in the exudates, could enhance Se uptake by rice plants with iron plaque.     

不同形态叶面硒肥对水稻吸收和转运硒的影响

通过田间试验,研究了不同形态叶面硒肥对水稻吸收和转运硒的影响。与空白对照相比,亚硒酸钠、硒酸钠、硒代蛋氨酸和化学纳米硒在水稻扬花期一次施用(15g/hm²)可使水稻籽粒、颍壳和秸秆的硒含量分别提高0.06～0.64、0.36～0.83和0.32～0.75 mg/kg。籽粒硒的回收率大小顺序为：硒代蛋氨酸(34.6%)>亚硒酸钠(15.7%)>硒酸钠(15.0%)>化学纳米硒(6.6%);硒在水稻各部位中的分配比例的高低顺序为：秸秆>籽粒>颍壳。此外,硒用量与水稻籽粒的硒含量呈极显著线性相关。按照黑龙江省富硒大米的地方标准(DB23T 790—2004),达到一等大米的硒含量指标(0.20～0.30 mg/kg),亚硒酸钠单施的施用量为6.01～10.62 g/hm²,腐植酸+亚硒酸钠复合肥的施用量为4.26～8.63 g/hm²。硒代蛋氨酸的富硒效率高于其他3种硒形态,腐植酸+亚硒酸钠复合肥的富硒效率高于亚硒酸钠单施。     

Retention and Uptake by Plants of Added Selenium in Peat Soils

In soil, adsorption of selenium (Se) onto mineral surfaces is accompanied by poorly known retention via organic matter. The effects of these components on the availability of Se were examined in two pot experiments. Spring wheat was grown with increasing amounts of selenate (SeO₄ ^2–) in one sand and three peat soils, and ryegrass with selenate and selenite (SeO₃ ^2–) in sphagnum peat manipulated by iron (Fe) hydroxide. Selenate persisted in soluble form, whereas selenite was fixed in the soil. In wheat, 5–50% of the selenate addition was recovered in the plant, the proportion increasing with increasing Se. In ryegrass, 30–40% of the added selenate but less than 2% of the selenite was found within the leaves. The Fe hydroxide enrichment enhanced the selenite uptake. Phosphate buffer desorbed a minor proportion of the added selenite, except in peat amply enriched with Fe hydroxide. The results suggest that the retention mechanism of selenite was changed due to the hydroxide amendment.     

Use of selenium fertilizers for production of Se‐enriched Kenaf (Hibiscus cannabinus): Effect on Se concentration and plant productivity

Due to selenium (Se) deficiency, Se fortification of food and feed is applied in many countries. Therefore, potential use of Se‐enriched kenaf was investigated based on its Se accumulation, its potential to transform accumulated Se to other Se species, and effect of Se accumulation on its growth. Kenaf was grown with different levels of two Se fertilizers (selenite and selenate) at concentrations ranging from 0 to 4 mg Se (kg soil)^–1. Total Se concentrations in the plants grown on selenate‐treated soil amounted to (1019 ± 136) mg Se (kg dry weight)^–1 and were much higher compared to plants grown on selenite‐treated soil. Identified Se species were selenite, selenate, Se‐methionine, and Se‐cystine. Biomass yield, net photosynthesis, and chlorophyll index of the plants decreased when plants were grown on soils treated with high doses of selenate.     

植物对硒的吸收转运和形态转化机制

阐述了植物对不同形态硒的吸收、转运和形态转化机制。植物主要吸收水溶性硒,包括部分有机硒、硒酸盐和亚硒酸盐。多数研究表明植物对硒酸盐的主动吸收是通过高亲和力的硫酸盐转运子完成,最近的研究表明磷酸盐可以调节亚硒酸盐的吸收,磷酸盐转运子在亚硒酸盐的主动吸收过程中有重要作用;植物吸收的硒酸盐很快从根部转移到地上部,在叶片中被还原成亚硒酸盐,进而转化为有机硒化物进入其他组织;而亚硒酸盐及其代谢产物主要积累在根部,极少转移到地上部。进入植物体中的硒转化为含硒氨基酸和硒蛋白参与植物的代谢。     

Influence of selenium on carbohydrate accumulation in developing wheat grains

The present investigation reports the effects of different doses of sodium selenate and sodium selenite on its uptake, carbohydrate composition, and sucrose and starch metabolizing enzymes in flag leaf and developing grains of wheat grown under greenhouse conditions. Selenium (Se) concentration increased significantly in leaves and developing grains of Se-treated plants compared to control at different intervals post-anthesis. Total soluble sugars and sucrose concentrations in developing grains increased due to various Se treatments. Different selenite treatments increased sucrose synthase activity from 10 to 20 days post-anthesis and increased starch accumulation compared to control plants. Lower starch accumulation in selenate than control and selenite treatments was observed. The activities of α, β and total amylase, invertase and sucrose synthase increased whereas sucrose phosphate synthase declined. Results indicated that Se accumulation causes disturbances in carbohydrate metabolism that is dependent on Se concentration, form and the development stage of the plant.     

硒对大蒜生理特性、含硒量及品质的影响

以金蒜3号为试材,采用盆栽试验,通过叶面喷施不同浓度、不同次数的亚硒酸钠研究了硒对大蒜生理特性、含硒量和品质的影响。结果表明:在生长期4月5日、15日和25日累计喷施1次、2次、3次3个浓度（5、10、15 mg/L）的亚硒酸钠溶液,均不同程度影响大蒜生理特性、含硒量和品质。与对照相比,叶面喷施2次10 mg/L的亚硒酸钠溶液,可显著提高叶片中光合色素含量和光合性能;能显著改善蒜薹和鳞茎品质,单薹鲜质量和单头鲜质量分别提高68.25%和29.00%,可溶性糖、可溶性蛋白、维生素C含量分别提高73.05%、104.66%、18.95%和82.01%、51.27%、69.82%;并可有效提高鳞茎中游离氨基酸含量（38.91%）,降低蒜薹中游离氨基酸含量（36.95%）;同时可降低蒜薹和鳞茎中大蒜素含量,但差异不显著。蒜薹和鳞茎硒含量随硒浓度和喷施次数的增加而显著提高,最高可达19.81和23.96 mg/kg,为对照的3.85和4.41倍。综合各因素指标,大蒜以叶面喷施2次10 mg/L的亚硒酸钠为宜。     

Investigation of plant systemic organoselena compounds. IV. Effects of the derivatives of selenamorpholine on the selenium content of radish

This study was conducted under field conditions to determine the effect of 20 derivatives of selenamorpholine on selenium (Se) concentration in radish as compared to sodium selenite sources of Se. Most of the organoselena compounds were more effective for the uptake of selenium by radish than sodium selenite. Sprayed with 100 mL 50 ppm 4‐(l‐bromoundecanoyl) selenamorpholine, the Se content of the leaf of radish increased from 0.17 ppm to 124.04 ppm. Sprayed with 4‐benzoyl selenamorpholine and selenamorpholine hydrochloride, the Se content of the stem tuber increased from 4.34 ppm to 30.96 ppm and 28.75 ppm, respectively.     

Growth and n2 fixation by field grown Medicago littoralis in response to added nitrate and competition from Lolium multiflorum

Medicago littoralis (medic) plants were grown with varying proportions of Lolium multiflorum (ryegrass), in field microplots, containing ¹⁵N labelled soils. Nitrate was applied to the microplots at either of two depths (5 or 20 cm) and at two times (germination and flowering of the medic).

Plants were regularly clipped and the harvested plant materials analyzed to estimate N₂ fixation by the ¹⁵N dilution technique. The labelling method used ensured that the added ¹⁵N was incorporated into the soil organic fraction, producing a stabilized enrichment of the mineral N released, thus eliminating errors due to uptake missmatches between legume and grass.

Nitrate, applied at germination, at 5 or 20 cm, significantly reduced the proportion of N fixed by medic grown with ryegrass by similar amounts. The proportions of N fixed by medic plants generally decreased with increasing proportions of medic, and when nitrate was added at flowering. However, when the nitrate was applied at 20 cm, this effect was not evident—probably due to strong competition from ryegrass roots removing most of the nitrate applied at that depth. Surface-applied nitrate always decreased amounts of N fixed, and also decreased amounts of N fixed g⁻ plant material (from 29 for the nil nitrate to 13 and 20 mg g⁻¹ for nitrate at germination and at flowering, respectively). Increasing proportions of ryegrass in the mixtures also decreased amounts of N fixed. Despite defoliation and water stress, there was no evidence of transfer of fixed N from medic to ryegrass in any treatment.     

Effect of selenium foliar application on chicory (Cichorium intybus L.)

Leaves of young chicory (Cichorium intybus L.) plants were sprayed with selenate (1 mg SeVI/L) to establish the distribution of added selenium (Se) in the heads. Its concentration was analyzed in the outer, intermediate, and innermost leaves of chicory heads. The concentration of Se was about double (43-46 ng Se g-1 DM) that in the control (21-24 ng Se g-1 DM), indicating that the applied Se was transported from the sprayed leaves to the heads. In cv. Monivip, Se concentration was even throughout the head, but in cv. Anivip, the innermost leaves had a lower concentration of Se. No visual symptoms of Se toxicity appeared on the plants, and the quantum yield of photosystem II showed no indication that Se spraying could be harmful for energy conversion. Se increased the respiratory potential in young plants but not in plants at harvest time.     

Strawberry recovers from iron chlorosis after foliar application of a grass‐clipping extract

Bare‐root transplants of strawberry (Fragaria × ananassa Duch. cv. Selva) were transferred to nutrient solutions with or without iron. After 35 d of growth, plants in the solution without iron became chlorotic and had morphological changes in roots typical of iron‐deficiency chlorosis (IDC). Acidification of the nutrient solution was also observed. We tested a grass‐clipping extract to correct IDC in strawberry plants by foliar application to some chlorotic plants. We also assessed the effects of this product on plant growth, Fe allocation, as well as morphological and physiological parameters related with IDC. After the second spray, leaf chlorophyll increased in the youngest expanded leaves. The total content of iron in plants increased from 1.93 mg to 2.37 mg per plant after three sprays, accounting for 80% of the total iron supplied by the extract. Newly formed roots from sprayed plants had a normal morphology (no subapical swollen zone) but a higher ferric chelate–reductase (FC‐R; EC 1.16.1.17) activity per root apex compared with roots from plants grown with iron or untreated chlorotic plants. Acidification of the nutrient solution continued in sprayed recovered plants. The results suggest an uncoupling of the regulation of morphological and physiological mechanisms related to IDC: FC‐R activity seems to be controlled by roots on their own or together with shoots, while morphological changes in roots are apparently regulated only by the level of iron in shoots.     

Effects of selenate addition on selenium accumulation and plant growth of two Prunus rootstock genotypes

A pot experiment was conducted with two Prunus genotypes (GF 677 and Mr.S.2/5, commercial rootstocks for peach), which are widely used in Italy and other European countries. Selenium (Se) was added as sodium selenate to 3‐month‐old micropropagated plants at a rate of 0 (control), 1.0, 2.5, and 5.0 mg Se (kg soil)^–1. Plant growth, gas exchange, and Se accumulation were studied. Selenium added at a rate of 2.5 and 5.0 mg Se kg^–1 appeared to be highly toxic for the two young peach rootstocks. Thirty‐three days after the treatment, the plants showed a high mortality rate. The fast growing rootstock, GF 677, appeared to be more sensitive to Se toxicity, the mortality rate reaching 52%. The higher the Se concentration in the soil, the higher it also was in the plant. In general, both genotypes were able to take up Se and to translocate high amounts from root to leaf. After selenate addition to the soil, both GF 677 and Mr.S.2/5 plants showed reduced plant growth with the highest Se treatments. Furthermore, Se induced a partial stomatal closure, as evidenced by the values of stomatal conductance, resulting in a reduction in net assimilation, and thus a decrease in dry‐matter production. Selenate applied at a low rate (1 mg Se kg^–1) stimulated plant growth in GF 677. One year after the Se treatment, a remobilization of Se from the storage organs to the young shoots was detected. This study demonstrates genotypic variation in Se uptake and accumulation in peach rootstocks.     

Application of redox mediator to accelerate selenate reduction to elemental selenium by Enterobacter taylorae

Acceleration of bacterial reduction of selenate [Se(VI)] to insoluble elemental Se [Se(0)] plays an important role in Se bioremediation. Anthraquinone-2,6-disulfonate (AQDS), a redox mediator, was assessed for its ability to enhance the reduction of Se(VI) (2000 microg/L) to Se(0) by Enterobacter taylorae in various media. The results showed that addition of AQDS did not increase Se(VI) reduction in the media containing 50 and 250 mg/L yeast extract, suggesting that E. taylorae cannot directly use anthrahydroquinone-2,6-disulfonate (AHQDS, a reduced form of AQDS) to respire Se(VI). An increase of yeast extract concentration from 50 to 250 mg/L in the medium dramatically enhanced the AQDS function for rapid reduction of selenite [Se(IV)] to Se(0). During an 8-day experiment, 85-91% of the added Se was reduced to Se(0) in the AQDS-amended medium in comparison to formation of 46% of Se(0) in the medium without AQDS. These results show that redox mediators have great application potential in bioremediation of Se in Se-contaminated water.     

Selenium accumulation in selected vegetables

Greenhouse experiments were conducted to determine selenium (Se) uptake by sulfur‐accumulating vegetables. Cabbage (Brassica oleracea var. capitata), broccoli (Brassica oleracea var. botrytis), Swiss chard (Beta vulgaris var. cicla) and collards (Brassica Oleracea var. acephda) were grown in a soil mix to which 4.5 mg of selenate or selenite had been added per kg of soil. Plants were grown to maturity, separated into plant organs, and the tissues analyzed for Se and sulfate (SO₄). Vegetables grown in selenate laden soil significantly (P<0.05) accumulated higher concentrations of Se than plants grown in selenite laden soil. The highest concentrations of Se and SO₄ were found in the broccoli floret and vegetable leaf tissues.

A second greenhouse experiment examined the uptake of Se and SO₄ in broccoli (Brassica oleracea var. botrytis) grown hydroponically with increasing Se concentrations. Treatments consisted of three Se concentrations (2, 6, and 15 mg of selenate, added as Na₂SeO₄/L to a synthetic water solution, including SO₄). Solution samples were taken weekly and analyzed for Se and SO₄. The removal or uptake of both Se and SO₄ by broccoli was positively related (P<0.05) with time at each Se concentration. After 6 weeks in Se treatments, uptake responses of Se and SO₄ were significantly different (P<0.05) based apon analyses of covariance. Composite leave samples were also taken from the broccoli plants and analyzed for Se and SO₄. Selenium concentrations were negatively correlated (P<0.08) with SO₄ concentrations in the leaf tissue.     

Selenium species in selenium-enriched and drought-exposed potatoes

The aim of this work was to study selenium (Se) speciation in the potato ( Solanum tuberosum L.) cultivar Desiree, enriched in Se by foliar spraying with a water solution containing 10 mg of Se/L in the form of sodium selenate. Four combinations of treatments were used: well-watered plants with and without Se foliar spraying and drought-exposed plants with and without Se foliar spraying. Water-soluble Se compounds were extracted from potato tubers by water or enzymatic hydrolysis with the enzyme protease XIV, amylase, or a combination of protease XIV and amylase. Extraction was performed using incubation at a constant temperature and stirring (37 degrees C at 200 rpm) or by ultrasound-assisted extraction (300 W), using different extraction times. Separation of soluble Se species (SeCys2, SeMet, SeMeSeCys, selenite, and selenate) was achieved by ion-exchange chromatography, and detection was performed by inductively coupled plasma-mass spectrometry (ICP-MS). Results showed that the concentration of selenate extracted was independent of the enzymatic extraction technique (approximately 98 ng/g for drought-exposed and 308 ng/g for well-watered potato tubers), whereas the extraction yield of SeMet changed with the protocol used (10-36%). Selenate and SeMet were the main soluble Se species (representing 51-68% of total Se) in potato tubers, regardless of the growth conditions.     

硒粮预防克山病的试验研究

研究结果表明;给农作物喷施亚硒酸钠水溶液,通过叶面吸收可增加籽实含硒量,食硒粮给人体补硒可有效地预防克山病发病。文中介绍了农作物喷硒的方法,筛选出喷施是提高籽实含硒量的有效途径,对不同作物的喷施生育期及亚硒酸钠用量等作了探讨。喷施的籽实含硒量比当地未喷的提高3—6倍,达到非病区含硒水平。食用硒粮人的发硒含量由0.085ppm提高到0.299ppm,与非病区发硒0.304ppm十分吻合,还说明硒粮中的硒(有机态硒)利于机体的吸收利用,因而能有效地提高人体环境含硒水平,且含量适当、对人安全。