咸水灌溉对基质栽培甜脆豌豆生长及营养品质的影响

【目的】探讨在水资源紧缺地区开展无土栽培咸水灌溉的可行性。【方法】采用基质盆栽试验,以甜脆豌豆为试验对象,设置0.6(淡水)、1.6、2.6、3.6、4.6 g/L共5个矿化度(深层地下淡水掺兑NaCl而成)灌水处理,研究了甜脆豌豆植株地上部和根系生长状况以及豌豆营养品质对咸水灌溉的响应。【结果】与淡水灌溉相比,灌溉水矿化度为3.6 g/L和4.6 g/L时出苗率显著(P<0.05)降低,降幅分别为12.5%和31.2%;甜脆豌豆的株高、地上部鲜/干物质量均随灌溉水矿化度的增加而显著(P<0.05)降低;在播后16 d时1.6 g/L和2.6 g/L处理的甜脆豌豆根系干物质积累未明显降低,但是在播后32d时咸水灌溉处理的根系干物质较淡水灌溉处理分别降低28.9%、40.5%、52.2%和53.1%;随灌溉水矿化度的增加,甜脆豌豆的根冠比呈增加趋势,豌豆淀粉量呈降低趋势,但2.6 g/L与0.6g/L处理间差异不显著(P≥0.05),豌豆可溶性蛋白量和可溶性糖量表现出先增加后减少的趋势,最大值均出现在2.6 g/L处理。【结论】开展基质栽培咸水灌溉甜脆豌豆是可行的,但灌溉水矿化度应≤2.6 g/L。     

豆-禾混播草地中紫花苜蓿比例对其固氮效率的影响及潜在生理机制

【目的】 通过研究豆草比例对紫花苜蓿-羊草混播草地豆科植物生物固氮的影响及其生理生态机制,深化对混播群落结构和生物固氮功能关系的理解,辅助豆-禾混播草地的科学建植和管理,提高混播草地生物固氮和土壤肥力,提升草地资源生产和生态保障能力。【方法】 2017年5月,利用紫花苜蓿和羊草为试验材料,采取随机区组设计,于中国科学院长岭草地农牧生态研究站内建植不同豆草比例（紫花苜蓿占比为25%、50%、75%、100%）的紫花苜蓿-羊草混播草地,4次重复。建植一年后,通过样方取样法调查混播草地群落结构变化,测定紫花苜蓿叶片、枝条和根系生长发育、光合和水分等生理代谢特征,在测定根系结瘤特征基础上,采取¹⁵N同位素自然丰度法评估紫花苜蓿固氮效率,结合土壤水分动态监测,分析豆草比例对紫花苜蓿生物固氮的影响及其生理生态机制。【结果】 （1）混播草地建植一年后,对应25%、50%、75% 和100%设计的豆草混播比例,混播草地实际紫花苜蓿占比分别为11%、27%、53%和100%。（2）对比25%、75%和100%的初始豆草种植比例,50%的初始豆草比例下,生长季平均土壤水分含量分别增加了21.4%、36.4%和51.7%。（3）50%豆草种植比例下,紫花苜蓿植株有更大的枝条和根系生物量、叶片数量、叶片面积、叶片厚度和叶片生物量,上述指标最小值出现在100%的豆草播种比例。（4）50%豆草种植比例下,紫花苜蓿具有最大的光合速率,枝条和根系中淀粉含量最高,但枝条和根系中可溶性糖含量最低。（5）50%的初始豆草混播比例下,紫花苜蓿根瘤发育更完善,其生物固氮率较25%、75%和100%的豆草混播比例分别提高了13.5%、44.6%和79.2%。回归分析表明,随豆草比例变化,紫花苜蓿生物固氮效率与土壤含水量呈正相关。【结论】 紫花苜蓿-羊草混播草地中,紫花苜蓿生物固氮能力与豆草比例间存在非直线型变化关系。当初始豆草种植比例为50%时,紫花苜蓿生物固氮率最大。豆草比例驱动土壤水分变化,进而通过调控叶片发育和光合等途径改变了紫花苜蓿植株和根瘤发育,是其影响生物固氮的潜在机制。     

Time‐lapse monitoring of soil water content using electromagnetic conductivity imaging

The volumetric soil water content (θ) is fundamental to agriculture because its spatiotemporal variation in soil affects the growth of plants. Unfortunately, the universally accepted thermogravimetric method for estimating volumetric soil water content is very labour intensive and time‐consuming for use in field‐scale monitoring. Electromagnetic (EM) induction instruments have proven to be useful in mapping the spatiotemporal variation of θ. However, depth‐specific variation in θ, which is important for irrigation management, has been little explored. The objective of this study was to develop a relationship between θ and estimates of true electrical conductivity (σ) and to use this relationship to develop time‐lapse images of soil θ beneath a centre‐pivot irrigated alfalfa (Medicago sativa L.) crop in San Jacinto, California, USA. We first measured the bulk apparent electrical conductivity (EC_a – mS/m) using a DUALEM‐421 over a period of 12 days after an irrigation event (i.e. days 1, 2, 3, 4, 6, 8 and 12). We used EM4Soil to generate EM conductivity images (EMCIs). We used a physical model to estimate θ from σ, accounting for soil tortuosity and pore water salinity, with a cross‐validation RMSE of 0.04 cm³/cm³. Testing the scenario where no soil information is available, we used a three‐parameter exponential model to relate θ to σ and then to map θ along the transect on different days. The results allowed us to monitor the spatiotemporal variations of θ across the surveyed area, over the 12‐day period. In this regard, we were able to map the soil close to field capacity (0.27 cm³/cm³) and approaching permanent wilting point (0.03 cm³/cm³). The time‐lapse θ monitoring approach, developed using EMCI, has implications for soil and water use and management and will potentially allow farmers and consultants to identify inefficiencies in water application rates and use. It can also be used as a research tool to potentially assist precision irrigation practices and to test the efficacy of different methods of irrigation in terms of water delivery and efficiency in water use in near real time.     

Kernel vitreousness and protein content: Relationship,interaction and synergistic effects on durum wheat quality

Four sets of durum samples were used in this study to further understand the interrelationships among hard vitreous kernels (HVK), protein content, and pigment concentration, with a focus on the interaction and synergistic effects of protein content and vitreousness on durum quality. HVK level increases with higher protein content in the range of 9.5–12.5%, but this relationship is less evident in durum samples with high protein content (12.5–14.5%). Both protein content and kernel vitreousness can significantly affect durum milling quality. White starchy kernels (WSK) in low protein durum have a very detrimental impact on milling and pasta processing quality, but high protein content can mitigate the adverse impact of WSK on durum quality. Although protein content plays a dominant role, higher HVK might contribute positively to pasta firmness. There was no significant difference in yellow pigment content between HVK and WSK. However, pigment loss from semolina to dough was higher for WSK than HVK. Despite the difference in protein content, HVK and WSK have little difference in gluten strength. The monomeric protein was preferentially accumulated in HVK. The glutenin proteins of HVK and WSK were similar in the ratios of 1Bx/1By and HMW/LMW-GS.     

保水缓释肥料保水性能及养分释放特性

为了明确添加水溶性保水剂(羧甲基纤维素钠、聚丙烯酰胺、聚丙烯酸钠)肥料的保水缓释效果,利用圆盘造粒工艺制备了保水缓释肥料,通过土壤培养和土柱淋溶试验,研究了保水缓释肥料在土壤中的保水性能和养分缓释效果。结果表明:3种保水缓释肥料均具有一定保水性和养分缓释效果,随保水缓释肥料用量增加,土壤最大持水率逐渐增加,土壤水分蒸发率逐渐减小;其中,以添加聚丙烯酸钠的保水缓释肥料保水性能和养分缓释效果最佳,首次淋溶后氮磷钾养分释放率较普通肥料分别减少了50.38%、55.74%、48.37%,当肥料添加量为2%时,土壤最大持水率较纯土壤提高了43.28%,培养至30 d土壤水分蒸发率较纯土壤降低了22.86%。     

6种草本药用植物种子超低温保存技术研究

以草本药用植物杜若、过江藤、夏枯草、皱果苋、罗勒和山香的成熟种子为材料,探讨了含水量和冷冻方法对种子超低温保存的影响。结果表明,经液氮超低温冷冻后,6种草本药用植物种子发芽率较对照组均有显著差异(p0.05);适宜的含水量下,种子经过超低温冷冻后其发芽率甚至高于对照组。3种冷冻方法中,玻璃化冷冻法更适合过江藤和山香种子的超低温保存,缓慢冷冻法更适合皱果苋、杜若和夏枯草种子的超低温保存,直接冷冻法适合于杜若和罗勒种子的超低温保存。所以,液氮超低温冷冻法保存杜若等6种草本药用植物种子是可行的;含水量对超低温保存前后夏枯草、山香和罗勒种子的发芽率影响显著。     

Quantitative trait loci responsible for the difference in γ-oryzanol content in brown rice between japonica-type and indica-type rice cultivars

γ-Oryzanol is a main oleophilic component in rice bran oil and has been well recognized as a good dietary supplement for human health, as well as having uses in industrial materials. japonica-type rice cultivars generally showed significantly higher contents of total γ-oryzanol in brown rice compared with indica-type cultivars, although within-group variation was significant. The objective of this study was to explore quantitative trait loci (QTLs) responsible for the difference in the γ-oryzanol content between japonica-type and indica-type rice cultivars, using recombinant inbred lines (RILs), backcross inbred lines (BILs), and corresponding chromosome segment substitution lines (CSSLs) derived from crosses between japonica-type and indica-type. Results from RILs and BILs showed that eight QTLs were detected with R² from .09 to .16. Nine candidate regions for QTL were also suggested from corresponding CSSLs. These QTLs from RILs and BILs and the candidate regions from CSSLs were not overlapped, although one QTLs was mapped near the boundaries of the respective candidate region. At four QTLs and three candidate regions, alleles or segments from japonica-type caused higher contents than those from indica-type. On the other hand, at the other four QTLs and six candidate regions, alleles or segments from indica-type caused higher contents than those from japonica-type, which is a reverse result to the parental differences. This result strongly suggested that alleles with increasing effects on γ-oryzanol content could be accumulated not only from japonica-type but also from indica-type, leading to a potential for increase in γ-oryzanol content in future breeding programs.     

Responses of glutamine synthetase activity and gene expression to nitrogen levels in winter wheat cultivars with different grain protein content

Glutamine synthetase (GS) plays a central role in plant nitrogen (N) metabolism, which improves crops grain protein content. A pot experiment in field condition was carried out to evaluate GS expression and activity, and grain protein content in high (Wanmai16) and low grain protein (Loumai24) wheat cultivars under two N levels (0.05 and 0.15 g N kg⁻¹ soil). High nitrogen (HN) resulted in significant increases in GS1 and GS2 expression at 10 days after anthesis (DAA), and higher GS activity during the entire grain filling stage. HN also significantly increased yield, grain protein content and protein fraction (except for glutenin of Luomai24) in two wheat cultivars, which indicated that it increased grain yield and protein content by improving nitrogen metabolism. Wanmai16 showed higher grain protein content, gliadin and glutenin content, and had higher expression level of GS2 both in flag leaves and grains at early grain filling stage. However, Luomai24 had greater yield and higher expression level of GS1. The difference expression of GS2 and GS1 genes indicates they had various contributions to the accumulation of protein and starch in wheat grains, respectively. The results suggest that GS2 would be serving as a potential breeding target for improving wheat quality.     

基于SPSS软件对水稻育秧土水分测定结果的拟合和修正

现采用TK100多功能水分测定仪对水稻育秧土进行水分测定。通过SPSS21.0软件,以TK100多功能水分测定仪测定的含水率为自变量,实际含水率(烘干法测得育秧土含水率)为因变量进行曲线拟合,并对拟合出的三种方程相关系数R、回归显著性检验的F值以及F值的显著水平P值进行对比分析,得出最优拟合曲线方程y=2.84-0.05x+0.007 25x2。在验证试验中,拟合函数计算出的含水率与烘干法测得的含水率配对t检验结果无显著差异,拟合曲线恰当、准确。     

Effects of Different Substrate Composition on Growth of Gesneriaceae Plants

The cultivation experiment was carried out to investigate the effects of different proportions of peat soil, perlite, vermiculite and yellow mud on growth of Gesneriaceae species(Chirita gueilinensis, Sinningia speciosa, Lysionotus pauciflorus, Hemiboea henryi, Aeschynanthus acuminatus, Saintpaulia ionantha). The growth traits of each plant growing in 7 different matrix materials were investigated.The plant height, crown width and chlorophyll content of each plant were measured. The results showed that the best substrate ratio was peat soil∶vermiculite=2∶1for C. gueilinensis, L. pauciflorus and H. henryi; peat soil∶perlite∶vermiculite = 2∶1∶1for S. ionantha; peat soil∶vermiculite∶yellow mud=2∶1∶1 for S. speciosa; peat soil∶perlite∶vermiculite∶yellow mud=2∶1∶1∶1 for A. acuminatus.