用SahysMod模型研究不同灌排管理情景土壤水盐动态

银北灌区是宁夏土地整治和高标准灌溉绿洲农田建设的重点区域。该区域耕荒地交错分布、土壤盐渍化严重。通过模型分区模拟,在土地整治过程中建立完整、配套的灌排系统是解决区域土壤盐渍化的有效措施。该研究以银北灌区典型区域-西大滩为例,综合考虑荒地与耕地土壤属性的空间变异性,以2015—2016年土壤盐分数据进行率定,2017年盐分数据作为验证,利用SahysMod探索在土地整治过程中不同灌排管理下未来10 a内土壤水盐动态变化。结果表明,现有灌排管理下(即灌水量为670 mm,灌溉水电导率为1.05 dS/m,排水沟深1.5 m),荒地土壤盐分在预测初期(2017—2022年)逐年升高,预测后期(2023—2027年)变化平缓;耕地土壤盐分在预测初期变化缓慢,预测后期逐年增加。加大灌水量是解决土壤盐渍化的一个重要途径,可以有效延迟耕地盐分累积到障碍水平的时间;在灌溉水电导率为0.6 dS/m情况下,未来10 a内耕地都不会受到盐害胁迫;现有灌排管理下,在2024年以后作物生长就会受到盐害胁迫,当灌溉水电导率继续增加时,作物生长受到胁迫的时间相应提前。通过土地整治,加深排水沟深度可以延迟土壤盐分达到障碍水平的时间。在整治过程中深为2.2 m的排水沟,可保证未来10 a内耕地盐分小于1.7 dS/m,区域内玉米可正常生长。研究可为在土地整治过程中的灌排管理及土壤盐渍化防治提供建议。     

Laboratory and on‐farm evaluation of low‐cost salt mixtures for use during salinity acclimation and the nursery phase of Pacific white shrimp (Litopenaeus vannamei)

The current study evaluates the efficacy of a low‐cost salt mixture (LCSM) to replace expensive reconstituted sea salt (RSS) in the salinity acclimation and nursery phase of Pacific white shrimp under laboratory and farm conditions. LCSM was formulated to yield sodium, potassium, calcium and magnesium concentrations closely comparable to that of diluted seawater. Laboratory‐based nursery trials were conducted at 2, 6 and 15 g/L salinities, incrementally replacing RSS with LCSM (25%, 50%, 75% and 100%) at four replicates per treatment. Thirty postlarvae were reared for 7 days in 24‐L aquaria during the 2 and 6 g/L trials, while the nursery trial for 15 g/L salinity was conducted for 21 days with 400 postlarvae stocked in 150‐L tanks. On‐farm evaluation of LCSM was carried out in two tank‐based systems installed on levees adjacent to shrimp production ponds. RSS was incrementally replaced with LCSM (0%, 50%, 75% and 100%) and 100 postlarvae stocked into each 800‐L tank. Salinity acclimation was done from 30 g/L to 6 or 1.5 g/L within 2–3 days by pumping water from adjacent shrimp production ponds. Following salinity acclimation, the S4 system maintained flow‐through at 1.5 g/L, while N10 system was maintained static at 6 g/L salinity. At the conclusion, no significant differences were observed for either survival or growth of shrimp postlarvae between RSS and LCSM treatments at all salinities examined. Results reflect the potential use of LCSM to replace RSS, which could be an excellent solution to bring down the cost of production in inland shrimp aquaculture.     

宛氏拟青霉提取物对盐胁迫下水稻幼苗的生理适应性

为探讨沙棘内生菌提取物作为生物刺激素对盐胁迫下水稻幼苗生长的影响，于沙棘内生菌宛氏拟青霉（Paecilomyces variotii）中提取了生物刺激素PVE（Paecilomyces variotii extracts），并经液相色谱对PVE的活性物质进行了富集纯化。通过水稻液培试验，设无盐（CK）、添加NaCl（NS）、添加PVE和NaCl（PN1）、添加PVE纯化物和NaCl（PN2）4个处理，研究生物刺激素对水稻的耐盐效应。结果表明，施用生物刺激素能够缓解盐胁迫对水稻生长造成的严重抑制。PN1、PN2处理较NS处理提高了叶片与根系的干质量，减少了植株体内的水分流失，增加了根系的直径和吸收面积，但根长相较于CK处理无显著差异；PN2处理叶片鲜质量、叶片含水量、根系含水量较PN1处理分别增加了12.44%、1.13%和0.42%。与NS处理相比，PN1和PN2处理叶片光合速率分别提高了34.08%和40.82%，蒸腾速率分别提高了23.90%和18.86%，PN1和PN2处理还显著提高了叶片中的超氧化物歧化酶（SOD）和过氧化物酶（POD）活性，使丙二醛（MDA）含量分别降低了28.36%和20.97%。PN2处理叶片和根系中的Na⁺含量较NS处理分别降低了36.31%和10.85%，从而降低了Na⁺/K⁺，保证了植株体内的离子平衡。研究表明，PVE及PVE纯化物在极低的浓度下具有较高的生理活性，并通过减少水分流失、促进根系生长、提高光合速率来减轻氧化损伤，同时以降低Na⁺流入的方式缓解盐胁迫对水稻幼苗的影响。     

华北平原地下水压采区冬小麦种植综合效应探讨

华北平原冬小麦-夏玉米一年两熟种植模式为维护国家粮食安全发挥了重要作用。但冬小麦生长期正处于华北平原降水较少的干旱季节,实现高产依赖于灌溉,是华北平原地下水超采的主导因素之一。随着国家地下水限采政策的实施,在地下水超采区如何稳定冬小麦的种植面积和产量是面临的一个重要问题。本文通过综述以往研究并结合典型地点田间试验结果,从冬小麦种植可减少休闲期土壤蒸发损失、具有的深根系系统可充分利用土壤储水、可利用微咸水替代淡水灌溉、通过限水灌溉发展优质麦生产、冬春形成覆盖层美化和防沙尘效应等方面论述了华北平原种植冬小麦的优势,提出华北平原冬小麦生产需要转变传统高耗水高产量理念,充分发挥冬小麦抗旱、耐盐能力强的特点,在不实施大规模压缩冬小麦种植面积条件下,通过冬小麦限水灌溉和微咸水利用满足对地下水压采需求,充分发挥华北平原冬小麦种植冬春防风沙、美化环境的生态功能,同时满足区域口粮安全的保障功能。     

盐胁迫对冬小麦花后抗氧化酶、渗透调节物质的影响

探究小麦花后遭遇盐胁迫下,小麦抗氧化酶、渗透调节物质的变化。本试验以‘青麦6号’、‘济麦22’为材料,以普通土壤为对照,设置2‰、4‰2个NaCl浓度盐胁迫梯度。利用土壤水分用时域水分测定仪(TDR)严格控制0~40 cm土层灌水量,获取冬小麦花后0、7、14、21、28天的小麦旗叶,测定旗叶中超氧化物酶(SOD)活性、过氧化物酶(POD)活性、可溶性蛋白含量、丙二醛(MDA)含量、可溶性糖含量、游离脯氨酸含量的变化。结果表明,随盐浓度及胁迫时间的增加,叶片SOD活性、POD活性、可溶性蛋白含量不同程度的减小;MDA含量、可溶性糖含量、游离脯氨酸含量不同程度地升高。‘青麦6号’具有较好的抗盐性,游离脯氨酸含量与小麦耐盐性呈正相关关系,SOD、POD、MDA能够作为作物抗逆性的衡量标准。     

Cloning and Expression of Bile Salt Hydrolase Gene from Lactobacillus plantarum M1-UVS29

We cloned and expressed bile salt hydrolase gene of Lactobacillus plantarum M1-UVS29 in Lactococcus lactis NZ9000 successfully. Gene-specific primers for amplification of L. plantarum bsh were designed by using sequence which availabled from Gen Bank. The production of PCR amplicon was confirmed by sequencing and cloned into pMD18-T vector, and then recombined into expression vector p NZ8148 and yielding vector p NZ8148-BSH. p NZ8148-BSH was transferred into Lactococcus lactis NZ9000. Sequencing indicated that the cloned bsh fragment contained 995 nucleotides, and shared 99.3% sequence homology with bsh gene from L. plantarum MBUL10. Cloned bsh fragment was successfully transduced into NICE expression system and confirmed by PCR and restriction digest. Recombinant BSH protein was analyzed by SDS-PAGE. The molecular weight of BSH protein was approximately 37 ku. Activity of the expressed protein was 0.77 μmol · min-1. The successfully expressed proteins by genetic engineering technology made the function of lactic acid bacteria be abundant and laid the foundation for further researches into cholesterol-lowering lactic acid bacterium food and probiotics.     

两个宁夏枸杞品种的耐渗透胁迫和耐盐特征比较

以宁夏枸杞(Lycium barbarum)中的两个品种扁果枸杞和宁杞0702为材料,对比二者在渗透胁迫、盐处理以及渗透胁迫和盐处理互作条件下的生长特征、叶组织含水量以及各器官Na~+、K~+积累量分析。结果表明,与对照相比,-0.5 MPa渗透胁迫下,扁果枸杞和宁杞0702的生长均受到抑制,其鲜重分别降低了34%和38%,根长分别降低了32%和17%;与对照相比,50mmol·L~(-1) NaCl使扁果枸杞幼苗的鲜重显著增加了38%(P0.05),干重、株高和根长均不受影响,但宁杞0702幼苗鲜重、干重、株高和根长分别显著降低了27%、34%、44%和14%(P0.05);渗透胁迫~+盐处理下,扁果枸杞幼苗与对照组差异不显著(P0.05),而宁杞0702幼苗的鲜重、干重、株高和根长分别显著降低了37%、28%、44%和13%。与对照相比,渗透胁迫下,扁果枸杞叶组织含水量维持稳定,而宁杞0702显著降低了12%(P0.05);在盐处理下,扁果枸杞和宁杞0702叶组织含水量分别显著增加了25%和18%(P0.05),在渗透胁迫~+盐处理下二者均维持稳定。在扁果枸杞中,鲜重和叶组织含水量与叶、茎中Na~+浓度呈极显著正相关(P0.01),而在宁杞0702中,鲜重仅与叶中的K~+浓度极显著正相关(P0.01),与茎中的Na~+则呈显著负相关(P0.05),叶组织含水量则与各器官中的Na~+、K~+浓度均不相关。与对照相比,扁果枸杞在渗透胁迫和盐处理下ST值分别显著增加了84%和43%(P0.05),而宁杞0702则分别显著降低了63%和47%(P0.05)。上述结果表明,扁果枸杞能通过体内积累适量的Na~+,调控体内Na~+、K~+平衡,改善体内的水分状况,维持其正常的生长,具有盐生植物的特点;宁杞0702则不具备这些特征。     

Differential Cl−/Salt Tolerance and NaCl‐Induced Alternations of Tissue and Cellular Ion Fluxes in Glycine max,Glycine soja and their Hybrid Seedlings

The salt‐sensitive Glycine max N23674 cultivar, the salt‐born Glycine soja BB52 population, and their hybrid 4076 strain (F₅) selected for salt tolerance generation by generation were used as the experimental materials in this study. First, the effects of NaCl stress on seed germination, tissue damage, and time‐course ionic absorption and transportation were compared. When qualitatively compared with seed germination appearance in culture dishes, and tissue damages on roots or leaves of seedlings, or quantitatively compared with the relative salt injury rate, the inhibition on N23674 was all the most remarkable. After the exposure of 140 mm NaCl for 1 h, 4 h, 8 h, 12 h, 2 days and 4 days, the content of Cl^? gradually increased in the roots and leaves of seedlings of BB52, 4076 and 23674. Interestingly, the extents of the Cl^? rise in roots of the three experimental soybean materials were BB52 > 4076 > N23674, whereas those in leaves were just on the contrary. Secondly, by using the scanning ion‐selective electrode technique (SIET), fluxes of Na⁺ and Cl^? in roots and protoplasts isolated from roots and leaves were also investigated among the three experimental soybean materials. After 140 mm NaCl stress for 2, 4 and 6 days, and when compared with N23674, slighter net Cl^? influxes were observed in root tissue and protoplasts of roots and leaves of BB52 and 4076 seedlings, especially at the cellular protoplast level. The results indicate that with regard to the ionic effect of NaCl stress, Cl^? was the main determinant salt ion for salt tolerance in G. soja, G. max and their hybrid, and the difference in their Cl^?/salt tolerance is mainly attributed to the capacity of Cl^? restriction to the plant above‐ground parts such as leaves.     

油葵不同灌溉模式对土壤水盐含量的影响及经济效益分析

通过研究油葵不同灌水方式对土壤水分、盐分含量的变化和经济效益比较,找出合理的灌溉模式,提高灌溉水利用率。试验设4个处理:不灌水(CK)、灌水1次(开花期)、灌水2次(开花期、灌浆期各一次)、灌水3次(现蕾期、开花期、灌浆期各一次),每次灌水量900 m3/hm~2,重复3次,随机区组排列。结果表明:灌水2次处理在降低0~20cm土层土壤盐分含量、p H方面效果最好;灌水2次处理显著提高了油葵产量和经济效益,分别比对照提高91%、117%。灌水2次处理模式有利于油葵正常生长发育,降低了土壤返盐,能抑制耕作层中盐分的表聚,显著地提高油葵产量和经济效益,是油葵最佳的灌溉模式。     

Physiological processes associated with salinity tolerance in an alfalfa half‐sib family

We previously reported an alfalfa half‐sib family, HS‐B, with improved salt tolerance, compared to parental plants, P‐B. In this study, we conducted additional experiments to address potential physiological mechanisms that may contribute to salt tolerance in HS‐B. Vegetatively propagated HS‐B and P‐B plants were treated with a nutrient solution (control) or a nutrient solution containing NaCl (EC = 12 dS/m). Shoots and roots were harvested at various time points after treatment for quantification of proline, soluble sugar, and H₂O₂ using spectrophotometers. Subcellular localization and quantification of Na in roots were conducted using a Na⁺‐specific dye under a confocal microscope. HS‐B produced 86 and 89% greater shoot and root dry biomass, respectively, compared to parental plants, P‐B, under salinity in the greenhouse. Under saline conditions the HS‐B shoots accumulated 115% and roots 55% more soluble sugars than P‐B counterparts. The non‐saline HS‐B shoots, however, showed 72% less soluble sugars than the non‐saline P‐B plants. Under saline conditions HS‐B accumulated 39% less proline in shoots, while roots accumulated 56% more proline, compared to their P‐B parents. HS‐B plants also showed a greater reduction of stomatal conductance under mild saline stress. HS‐B shoots and roots contained 3–4 times less reactive oxygen species (H₂O₂) after salt treatment compared to P‐B plants. Sodium localization and distribution analysis using Na⁺‐specific dye revealed HS‐B plants accumulated 88% and 48% less Na⁺ in stele and xylem vessels compared to P‐B. The study provides insights into the potential mechanisms that may contribute to salt tolerance in HS‐B: maintaining RWC by accumulating soluble sugars while reducing transpiration, maintaining healthy status by reducing oxidative stresses, and preventing salt toxicity by reducing accumulation of Na⁺ inside root cells and xylem.