Response of photosynthesis,growth,and acorn mass of pedunculate oak to diff erent levels of nitrogen in wet and dry growing seasons

The objective was to examine the effects of optimal leaf nitrogen levels>2.0%and suboptimal levels<2.0%,nitrogen nutrition on net photo synthetic rate,stem diameter increment,height growth increment and acorn mass of pedunculate oak during 2010 in the absence of drought stress and during 2011 under the impact of moderate drought stress.According to the results,moderate drought stress significantly reduced net photo synthetic rate,stem diameter increment and height growth increment,while acorn mass was not affected.Suboptimal nitrogen nutrition significantly reduced the net photo synthetic rate and stem diameter increment only in the wet year,acorn mass in both wet and dry years,while height growth increment was not significantly reduced by suboptimal nitrogen nutrition in either year.The results indicate that optimal nitrogen levels can stimulate photo synthetic rate and stem diameter increment of pedunculate oak only in the absence of moderate drought stress.Moreover,the results show that moderate drought stress is a more dominant stressor for photosynthesis and growth of pedunculate oak than suboptimal nitrogen nutrition,while for acorn development,it is the more dominant stressor.

The Potential of Rat Inner Cell Mass and Fetal Neural Stem Cells to Generate Chimeras

The rat chimera is an important animal model for the study of complex human diseases. In the present study we evaluated the chimeric potential of rat inner cell masses （ICMs） and fetal neural stem （FNS） cells. In result, three rat chimeras were produced by day 5 （D5） Sprague-Dawley （SD） blastocysts injected with ICMs derived from day 6 （D6） and D5 Dark Agouti （DA） blastocysts; four rat chimeras had been generated by D5 DA blastocyst injected with D5 SD ICMs. For the requirement of gene modification, cultured rat inner cell mass cells were assessed to produce chimeras, but no chimeras were generated from injected embryos. The potential to generate chimeras from rFNS and transfected rFNS cells were tested, but no chimeric pups were produced. Only 2 of 41 fetuses derived from D5 DA blastocyst injection with SD LacZ transfected rFNS cells showed very low number of LacZ positive cells in the section. These results indicate that DA and SD rat ICMs arc able to contribute to chimeras, but their potential decreases significantly after culture in vitro （P〈0.05）, and rFNS cells only have the potential to contribute to early fetal development.

Litter production and leaf nutrient concentration and remobilization in response to climate seasonality in the central Amazon

Litterfall is the largest source of nutrients to for-est soils of tropical rainforests.However,variability in lit-terfall production,nutrient remobilization,and changes in leaf nutrient concentration with climate seasonality remain largely unknown for the central Amazon.This study meas-ured litterfall production,leaf nutrient remobilization,and leaf area index on a forest plateau in the central Amazon.Litterfall was measured at monthly intervals during 2014,while nitrogen,phosphorus,potassium,calcium and mag-nesium concentrations of leaf litter and canopy leaves were measured in the dry and rainy seasons,and remobilization rates determined.Leaf area index was also recorded in the dry and rainy seasons.Monthly litterfall varied from 33.2(in the rainy season)to 87.6 g m^(-2) in the dry season,while leaf area index increased slightly in the rainy season.Climatic seasonality had no effect on concentrations of nitrogen,calcium,and magnesium,whereas phosphorous and potassium responded to rainfall seasonality oppositely.While phosphorous increased,potassium decreased during the dry season.Over seasons,nitrogen,potassium,and phosphorous decreased in leaf litter;calcium increased in leaf litter,while magnesium remained unaffected with leaf aging.Regardless,the five nutrients had similar remobilization rates over the year.The absence of climate seasonality on nutrient remobilization suggests that the current length of the dry season does not alter nutrient remobilization rates but this may change as dry periods become more prolonged in the future due to climate change.

The scaling relationship of leaf area and total mass of sample plots across world trees

The scaling relationship between leaf area and total mass of plant has important implications for understanding resource allocations in the plant.The model of West,Brown and Enquist(WBE model)considers that a 3/4 scaling exponent of metabolic rate versus total mass to be optimal for each plant and has been confirmed numerous times.Although leaf area is a better proxy of the metabolic rate than leaf mass,few studies have focused on the scaling exponent of leaf area versus total mass and even fewer have discussed the diversification of this scaling exponent across different conditions.Here,I analyzed the scaling exponent of leaf area versus total mass of sample plots across world plants.I found that as the plant grows,it allocates fewer resources to photosynthetic tissues than expected by the WBE model.The results also empirically show that this scaling exponent varies significantly for different plant leaf habit,taxonomic class and geographic region.Therefore,leaf strategy in response to environmental pressure and constraint clearly plays a significant role.

Sweet Potato Leaf Curl Virus: Coat Protein Gene Expression in <i>Escherichia coli</i>and Product Identification by Mass Spectrometry

Sweet potato is one of the first natural GMOs, genetically modified 8000 years ago by Agrobacterium rhizogenes as reported recently by Kyndt et al. A section of 10 kbp long DNA (Transferred- DNA or T-DNA) of the Ri (Root-inducing) plasmid was transferred to the plant genome by A. rhizo-genes and has been maintained in all 291 hexaploid sweet potato cultivars of the world. The maintenance in the sweet potato genome and expression of two T-DNA genes for tryptophan-2-monooxygenease (iaaM) and for indole-3-acetamide hydrolase (iaaH) are likely to be physiologically significant since these enzymes convert tryptophan to indole-3-acetic acid, a major plant growth hormone auxin. Sweet potato (Ipomoea batatas (L.) Lam) is ranked the third most important root crop after potato and cassava, and the seventh in global food crop production with more than 126 million metric tons. Although sweet potato originated in Central or South America, China currently produces over 86% of world production with 109 million metric tons. In the United States, North Carolina is the leading producer with 38.5% of the 2007 sweet potato production, followed by California, Mississippi, and Louisiana with 23%, 19%, and 15.9%, respectively. Leaf curl virus diseases have been reported in sweet potato throughout the world. One of the causal agents is Sweet potato leaf curl virus (SPLCV) belonging to the genus Begomovirus (family Geminiviridae). Although SPLCV does not cause symptoms on Beauregard, one of the most predominant sweet potato cultivars in the US, it can reduce the yield up to 26%. Serological detection of SPLCV is not currently available due to the difficulties in obtaining purified virions that can be used as antigen for antiserum production. In attempts to obtain the coat protein (CP) of SPLCV for antibody production, primers were designed to amplify the CP gene. This gene was cloned into the expression vector pMAL-c2E as a fusion protein with maltose-binding protein, and transformed into Escherichia coli strain XL1-Blue. After gene induction, a fusion protein of 72 kDa was purified by amylose affinity chromatography. The yield of the purified fusion protein was approximately 200 μg/liter of bacterial culture. Digestion with enterokinase cleaved the fusion protein into a 42.5 kDa maltosebinding protein and a 29.4 kDa protein. The latter protein was identified by mass spectrometry analysis as the coat protein of SPLCV based on the fact that the mass spectrometry elucidated the sequences corresponding to 37% of amino acid positions of the SPLCV coat protein.

Systematical regulation involved in heterogeneous photosynthetic characteristics of individual leaf in pima cotton

Light heterogeneity leads to anatomically and physiologically heterogeneous features in leaves. However, little attention has been paid to the effects of nonuniform illumination on the anatomical and photosynthetic performance on both sides along the leaf main vein. This study explored such effects by combining in situ determination in the field with shading simulation in the phytotron, on pima cotton that has cupping leaves. Photosynthetic characteristics and morphological structures were measured in the field on both sides along the main vein of eastward, westward, southward, and northward leaves. The results showed that the difference in photosynthetic capacity between the two sides along the main vein in different directions was closely related to the daily photo irridiance(DPI). This result indicates that the photosynthetic heterogeneity between the two sides is related to their intercepted light energy. The conclusion was further verified by the shading simulation experiments. Photosynthetic capacity and leaf thickness of the unshaded sides of leaves in the half-shaded treatment decreased, compared to those in the unshaded treatment. Therefore, it is conjectured that the development of photosynthetic characteristics on one side is systematically regulated by that on the other side. The study provides theoretical guidance on accessing the feasibility of sampling and directional planting.

Variation in litter decomposition-temperature relationships between coniferous and broadleaf forests in Huangshan Mountain, China

A study was conducted to identify the differences in the decompositions of leaf litter, lignin and carbohydrate between coniferous forest and broadleaf forest at 20℃ and 30℃ in Huangshan Mountain, Anhui Province, China. Results showed that at 20℃ mass loss of leaf litter driven by microbial decomposers was higher in broadleaf forest than that in coniferous forest, whereas the difference in mass loss of leaf litter was not significant at 30℃. The temperature increase did not affect the mass loss of leaf litter for coniferous forest treatment, but significantly reduced the decomposition rate for broadleaf forest treatment. The functional decomposers of microorganism in broadleaf forest produced a higher lignin decomposition rate at 20℃, compared to that in coniferous forest, but the difference in lignin decomposition was not found between two forest types at 30℃. Improved temperature increased the lignin decomposition for both broadleaf and coniferous forest. Additionally, the functional group of microorganism from broadleaf forest showed marginally higher carbohydrate loss than that from coniferous forest at both temperatures. Temperature increase reduced the carbohydrate decomposition for broadleaf forest, while only a little reduce was found for coniferous forest. Remarkable differences occurred in responses between most enzymes （Phenoloxidase, peroxidase, !5-glucosidase and endocellulase） and decomposition rate of leaf litter to forest type and temperature, although there exist strong relationships between measured enzyme activities and decomposition rate in most cases. The reason is that more than one enzyme contribute to the mass loss of leaf litter and organic chemical components. In conclusion, at a community scale the coniferous and broadleaf forests differed in their temperature-decomposition relationships.

陆地棉叶片干质量的发育遗传研究

采用基因型与环境互作的加性-显性-母体遗传的非条件与条件分析即ADM遗传模型,研究7个陆地棉亲本及21个正交F1代在3种密度(2.4×10^(5)株/hm^(2)、1.8×10^(5)株/hm^(2)、1.2×10^(5)株/hm^(2))种植下,叶片干质量(LDW)发育遗传规律,探讨陆地棉叶片不同发育时期干质量、发育特征值与发育时间的关系,为优质亲本选育提供依据。结果表明:显性及其与环境互作效应存在于整个叶片干质量累积过程,在叶片不同发育时期或时段也存在较大的加性或母体效应影响,加性及母体与环境互作总体来说影响较小,叶片发育过程中以遗传主效应为主,而遗传主效应表达受环境调控较大;叶片干质量表现出明显杂种优势且易受环境条件影响的特点。不同发育时期或时段叶片干质量对最终叶片干物质的累积均有较大正向作用,但其遗传机制却各不相同。第20天、第30天对叶干质量具有较好选择效果。叶片干物质累积与叶片生长发育特点及亲本的选择有关,可根据各亲本的遗传效应预测值、环境稳定性进行陆地棉叶型育种。7个亲本中,大叶型育种时选择P5为亲本,小叶型育种时选择P2为亲本,以保证营养物质的有效储存与运输。

干热河谷稀树灌丛藤本植物叶片养分重吸收特性

为探明我国西南干热河谷地区特殊的植被类型稀树灌丛的养分重吸收规律,选取元江干热河谷的稀树灌丛10种优势藤本植物为研究对象,测定叶片热值、灰分含量、形态性状、成熟叶和凋落叶的氮磷元素含量,计算叶片构建成本,探讨叶片构建成本、叶片性状与氮磷重吸收效率之间的相互关系。结果显示:元江干热河谷稀树灌丛藤本植物叶片的氮磷重吸收效率在不同物种之间存在较大的变异,叶片氮和磷重吸收效率平均值分别为48.0%和46.2%;叶片磷重吸收效率与氮重吸收效率呈显著正相关关系(P<0.05),而氮磷重吸收效率与叶片构建成本、比叶重呈显著负相关关系(P<0.05)。叶片构建成本较低的植物采取较快速的养分周转策略,以提高养分再利用效率;叶片构建成本较高的植物采取较保守的养分利用策略,养分回收效率较低。元江干热河谷的稀树灌丛藤本植物存在生活史策略的分化,以适应长期干热的生境。

HS-SPME-GC-MS结合GC-O分析不同叶位桑叶挥发性风味物质

为探究桑叶“青草味”分布特点,本研究以我国南方地区广泛种植的‘粤桑11号’桑树的叶片为研究对象,通过顶空固相微萃取法结合气相色谱质谱嗅闻联用仪测定了不同叶位(桑芽、1~3叶位和4~6叶位叶片)的挥发性成分,并对桑叶挥发性成分进行主成分分析。结果表明,不同叶位桑叶共鉴定出挥发性风味物质38种,其中不同叶位共有成分14种,差异性成分24种;桑芽、1~3叶位和4~6叶位中分别鉴定出24种、28种、23种挥发性风味物质。不同叶位桑叶的挥发性风味物质中均以醛类物质的含量最高,是构成桑叶风味的主体成分,而被描述为“青草味”的(E)-2-己烯醛在不同叶位叶片的醛类物质中均占比最高,可能是桑叶食品“青草味”的重要成分之一。本研究结合风味强度法和风味轮廓法解析了各个叶位之间的风味特征成分,明确(E)-2-己烯醛消减是桑叶食品风味改良的关键因素。本文研究结果可为风味品质优良的桑叶食品原料筛选提供部分参考依据。

肉豆蔻科国家重点保护植物叶片功能性状的研究

为探究重点保护植物在热带地区的生态适应策略,本研究以肉豆蔻科9种木本植物(5种国家重点保护植物和4种非国家重点保护植物)为研究对象,测定了它们的叶片形态、光合、养分含量及养分重吸收率等22个性状。结果显示:与非重点保护植物相比,重点保护植物的叶片干物质含量、叶片密度和碳含量更低,但叶片更厚、单位叶面积光合速率更高;比叶重、叶脉密度、气孔导度、元素含量、养分重吸收率等多个性状在重点和非重点保护植物间差异不显著。氮含量与氮重吸收率显著正相关。镁含量与比叶重在重点保护植物间显著负相关,镁重吸收率与叶脉密度在重点保护与非重点保护植物间均显著负相关。主成分分析结果表明,对第1主成分贡献较大的性状主要是叶片密度、光合氮利用效率和叶片干物质含量;对第2主成分贡献较大的性状主要是N、P含量和N:P比值。肉豆蔻科植物叶片的N:P比值低于14,说明其生长主要是受N限制而不是P限制。研究结果表明,基于功能性状的研究可以揭示重点保护植物和非重点保护植物间生态适应策略的差异。因此,未来需加强重点和非重点保护植物的生理生态学比较研究。

基于UPLC-Q-TOF-MS/MS的“略麻1号”茎秆与块茎化学成分分析

目的:对“略麻1号”茎秆与块茎化学成分进行比较研究。方法:采用超高效液相色谱-四极杆飞行时间质谱法(UPLC-Q-TOF-MS/MS),Xbridge BEH C_(18)色谱柱(100 mm×2.1 mm,1.7μm),以0.1%甲酸水溶液-乙腈为流动相进行梯度洗脱,流速为0.3 mL·min^(–1);扫描方式采用正、负离子Full-ddMS2模式下采集数据;结合对照品、相关文献及质谱裂解规律对样品中成分的二级质谱数据进行分析。结果:从“略麻1号”茎秆中共鉴定出153个化合物,包括酚类20个、有机酸类46个、黄酮类11个、氨基酸类12个、生物碱类14个、其他类50个;从“略麻1号”块茎中共鉴定出126个化合物,包括酚类21个、有机酸类36个、氨基酸类13个、生物碱类11个、其他类45个。结论:“略麻1号”茎秆和块茎在物质基础上差异较大,在开发应用中应予以区别,茎秆具有较高的开发应用价值。

超高效液相色谱-四极杆-飞行时间质谱法鉴定黄大茶化学成分

黄大茶是中国特有的茶叶品种,具有降脂、降糖、改善代谢综合征的保健功效,但由于缺乏对黄大茶化学成分的研究,其功效性物质基础尚未被完全揭示。本研究以超高效液相色谱-四极杆-飞行时间质谱(UPLC-Q TOF/MS)作为检测工具,结合中性丢失和特征碎片离子等信息,对黄大茶的主要化学成分进行筛查和分析。选取Waters ACQUITY UPLC BEH C18色谱柱(100 mm×21 mm,17μm)进行分离,以01%甲酸水和乙腈作为流动相进行梯度洗脱,流速02 mL/min,进样量2μL,柱温35℃。在电喷雾电离(ESI)正/负离子模式下,利用全信息串联质谱(MSE)技术采集黄大茶样品溶液的质谱信息。通过查阅文献构建茶叶化学成分数据库,主要包括化学名称、分子式、结构式、准分子离子、碎片离子等信息,对自建数据库中的化学成分按照骨架结构进行归类;基于UPLC-Q TOF/MS测定结果,利用对照品对主要类别化合物的质谱裂解规律进行梳理,并总结其特征碎片离子和中性丢失特征;结合化合物的保留时间、准分子离子、碎片离子等信息对化合物结构进行表征。本研究共从黄大茶中鉴定出87个化学成分,包括10个儿茶素类、32个黄酮类、16个酚酸类、12个鞣质类、6个茶黄素类以及11个其他类别化合物,其中14个成分经对照品予以验证。该方法能够全面阐明黄大茶的主要化学成分,为黄大茶功效性成分发现、品质评价提供科学依据和数据支撑。

基于δ^(13)C估算水分利用效率的2种模型比较——以峨眉山雷洞坪植物为例

【目的】通过对基于碳稳定同位素值(δ^(13)C)估算水分利用效率(iWUE)的2种模型(是否考虑叶肉导度,gm)之间差异的研究,有助于进一步理解gm对植物iWUE的影响。【方法】选择峨眉山雷洞坪针阔混交林中不同生长型植物,采集了48个物种的117个叶片样品,通过测定其叶片δ^(13)C,对比了早期估算iWUE模型(iWUEsim模型,将gm看作无穷大)与包含gm效应的iWUE模型(iWUEmes模型)之间的iWUE差异(iWUE_(difference)),以及这种差异随植物生长型变化的趋势。【结果】结果显示,iWUEsim的平均值(42.23±1.33μmol·mol^(-1))显著高于iWUEmes的平均值(28.10±0.65μmol·mol^(-1)),高估比例为3.64%~72.11%(平均49.58%±1.30%)。不同生长型植物的iWUEsim均显著大于iWUEmes,其中草本植物高估比例3.64%~48.00%(平均29.20%±5.16%),灌木高估比例13.68%~67.73%(平均48.44%±1.83%),乔木高估比例32.04%~72.11%(平均54.08%±1.47%)。此外,叶片功能性状对iWUE_(difference)有显著影响,相比于叶片厚度、叶片干物质含量和单位质量叶片氮含量,单位面积叶片氮含量和比叶重是影响iWUE_(difference)变化的主要因素。【结论】将gm看作无穷大会造成对基于δ^(13)C估算的iWUE的高估,未来估算植物iWUE时应考虑gm的影响。

不同单株枸杞芽叶茶风味品质分析

为探明枸杞单株芽叶的适制茶类,本研究将2种枸杞单株芽叶分别用绿茶和白茶加工工艺,制成4种枸杞芽叶茶,并采用顶空固相微萃取-气相色谱-飞行时间质谱联用技术(HS-SPME-GC-TOF-MS)、生化成分分析和感官审评法,结合主成分分析(principal component analysis,PCA)、香气活度值(odor activity value,OAV)及多元统计分析4种枸杞芽叶茶的风味特征。结果表明,M单株加工的绿茶感官品质得分最高,其次是M和A单株分别加工的白茶,而A单株加工的绿茶得分最低。M单株加工的绿茶类黄酮含量最高,A单株加工的绿茶水浸出物含量最高。4种茶中共检测出58种挥发性物质,其中香叶基丙酮、正己醇、二氢猕猴桃内酯、苯乙醇、苯甲醇、萘、α-松油醇为AB、MB呈现花香、清香的特征香气成分;1-辛烯-3-醇为AL呈现果香的特征香气成分;2,5-二甲基吡嗪、3,5-辛二烯-2-酮、β-环柠檬醛、苯甲醛、乙酸叶醇酯、乙酸己酯为ML呈现花果香、清香的特征香气成分。可见M单株适制绿茶、白茶,A单株适制白茶,A、M单株加工白茶呈花香、清香的风味特征,A单株加工绿茶呈果香的风味特征,M单株加工绿茶呈花果香、清香的风味特征。本研究明确了枸杞A、M单株适制茶类及枸杞芽叶茶的风味特征,为枸杞芽叶茶的利用提供参考。

穿刺针直径及校准方法对叶片穿透力机械强度的影响

叶片穿透力强度是反映叶片机械抗性的重要指标之一,但最终结果受到针直径与校准方法的影响。为探究不同穿刺针直径及校准方法对叶片穿透力测定的影响,该文对比研究了广西大学校园中30种具平行脉单子叶植物与具网状脉双子叶植物的叶片穿透力在不同直径穿刺针测定与校准条件下的差异及该差异与功能性状的相关性。结果表明:(1)利用穿刺针周长、横截面积及叶片厚度等进行校准,不同校准方式下不同直径穿刺针测定的叶片穿透力不同。(2)不同校准方式下,利用3种直径穿刺针测到的穿透力之间差异不同,其中,在只利用穿刺针周长和利用针周长与叶片厚度校准后,不同直径穿刺针之间的叶片穿透力无显著性差异;在只利用叶片厚度校准时,穿刺针越粗,穿透力越大;在只利用穿刺针面积和利用针面积与叶片厚度校准后,穿刺针越粗,穿透力越小。单子叶植物3种不同直径穿刺针的穿透力均大于相同粗细穿刺针下双子叶植物的穿透力。(3)不同校准方式下3种直径穿透力之间的差异与叶片性状的相关性有所不同,叶脉类型、叶片密度、比叶重、角质层厚度和叶脉密度可能是3种直径穿透力之间差异产生的结构影响因素。综上所述,利用不同直径穿刺针测定及不同校准方式下对不同叶脉类型植物的叶片穿透力具有不同影响,叶片穿透力测定过程中需对穿刺针直径及校准方法进行合理地选择和统一,建议测定叶片穿透力时,这3种针中,直径为0.5 mm的穿刺针应用于叶脉密度较大、比叶重较小的叶片测定,但不适用于较为坚硬的叶片,直径为2 mm的穿刺针不适用于叶脉密度较大、比叶重较小的叶片,选择直径为1 mm的穿刺针并利用其周长进行校准较为合理。

汉麻花和叶挥发性成分分析

为明确汉麻不同花和叶的挥发性成分,以品种brosom为材料,利用顶空-气相色谱/质谱联用技术对其雌花、雄花、雌株老嫩叶、雄株老嫩叶的挥发性成分进行测定。结果表明,相对含量在0.05%以上的挥发性成分中,雌花检测到36种、雄花23种、雌株老叶32种、雌株嫩叶35种、雄株老叶26种、雄株嫩叶30种;萜烯类是花、叶的主要挥发性成分,其中单萜类是雌/雄花的优势成分,雌花主要成分为β-蒎烯和D-柠檬烯,雄花为α-蒎烯、β-蒎烯和D-柠檬烯;倍半萜类是雌株老/嫩叶优势成分,单萜类是雄株老/嫩叶优势成分;雌株老叶主要成分为β-蒎烯、D-柠檬烯、石竹烯和叶醇,雌株嫩叶为D-柠檬烯、石竹烯和β-金合欢烯,雄株老叶为α-蒎烯、β-蒎烯、石竹烯和叶醇,雄株嫩叶为α-蒎烯和β-蒎烯。挥发性成分相似率分析结果显示,雌花和雄花相似率较高,雌株老/嫩叶及雄株老/嫩叶相似率极高,而不同性别的花、叶间相似率较低。雄株老嫩叶α-蒎烯含量(>44.84%)显著高于雌株老嫩叶(<2.65%),雌株老嫩叶的β-金合欢烯含量(>9.18%)显著高于雄株老嫩叶(<0.33%),故α-蒎烯和β-金合欢烯可作为区分brosom雌/雄株的挥发性成分标识物。α-蒎烯、石竹烯、β-罗勒烯在雌/雄花中的差异表现丰富了汉麻雌/雄花在挥发性成分方面的基础知识。本研究结果为汉麻育种及其综合开发利用提供了理论基础。

移植前骨骼肌质量对异基因造血干细胞移植早期结果的影响研究

背景异基因造血干细胞移植是治疗恶性血液病的有效手段,营养不良是常见并发症并对预后产生负性影响。已有研究证实肌肉量较白蛋白等血生化指标能更早反映患者的营养状况,而移植前骨骼肌质量(SMM)对移植早期相关并发症的影响目前尚不明确。目的探讨移植前SMM对异基因造血干细胞移植早期结果的影响,为实施营养干预及改善预后提供临床依据。方法选择2022年1—10月在陆军军医大学新桥医院血液病医学中心接受异基因造血干细胞移植的77例白血病患者为研究对象,采用生物电阻抗法评估SMM,根据SMM分为正常SMM组(36例)和低SMM组(41例),收集患者基线资料,包括个人信息和临床资料等,采用SPSS 23.0软件比较两组患者移植早期(移植后30 d内)口腔黏膜炎情况、消化道症状、感染及造血重建时间等。结果正常SMM组和低SMM组腹泻、恶心呕吐、胃痛/腹痛发生率比较,差异均无统计学意义(P>0.05)。正常SMM组口腔黏膜炎、低蛋白血症、显性消化道出血、感染发生率低于低SMM组(P<0.05)。正常SMM组患者口腔黏膜炎严重程度低于低SMM组(P<0.001)。低SMM组患者中性粒细胞植活时间和血小板植活时间均长于正常SMM组(P<0.01)。结论移植前患者的低SMM发生率较高,低SMM与患者移植早期口腔黏膜炎发生、口腔黏膜炎严重度、低蛋白血症发生、显性消化道出血、感染及中性粒细胞和血小板植活时间延迟有关,患者移植前应尽早筛查,积极提升患者SMM,改善移植早期结果。

两品种小麦间、混播对其茎秆形态特征和抗倒性能的影响

为明确间、混播对冬小麦抗倒伏的影响,本试验以山农20(SN20)和山农优麦2号(YM2)为材料,设置常规条播(单播)及二者隔行间播(SN20//YM2,1∶1)和等量混播(SN20×YM2,1∶1)3种种植方式,研究不同种植方式下品种间抗倒伏指数、茎秆形态特征及基部第二节间抗折力等的差异,并进行品种、种植方式及二者互作对小麦抗倒伏性状影响的方差分析。结果表明,间、混播较单播可显著降低小麦重心高度、株高,显著增加第二节间茎粗、壁厚、抗折力以及抗倒伏指数,尤以混播表现最好,但与间播整体上差异不显著;种植方式对第二节间壁厚、抗折力以及抗倒伏指数影响最大。混播方式下,YM2灌浆期和成熟期的抗倒伏指数最大,相比于单、间播分别显著增加54.50%、10.89%和65.77%、30.22%。综上表明,本试验条件下,间、混播可降低冬小麦株高、重心高度,增加基部第二节间茎粗、壁厚和抗折力,有效提升小麦抗倒伏指数,从而降低冬小麦倒伏风险,促进抗逆稳产。该结论可为山东省冬小麦高产稳产和抗倒伏栽培提供参考依据。

基于HS-SPME-GC-MS的云南白茶关键香气组分及特征分析

该研究以10个云南大叶种制作的云南白茶为研究对象,采用顶空固相微萃取(headspace solid phase microextraction,HS-SPME)与气相色谱-质谱联用(gas chromatography-mass spectrometry,GC-MS)技术对不同茶树品种的云南白茶样品挥发性风味成分进行检测分析。结果表明,共鉴定出88种挥发性化合物(10种共有化合物),其中醇类21种、醛类11种、酮类9种、碳氢类29种、酸类5种、酯类7种、其他类6种。不同云南大叶种白茶的挥发性成分含量范围为15.037~113.866μg/g,其中含量最高的为‘景谷大白茶’制样,含量最低的为‘雪芽100号’制样。气味活度值(odor activity value,OAV)结果显示,芳樟醇、大马士酮、芳樟醇氧化物、2-甲基丁醛、苯乙醛、紫罗兰酮等挥发性成分的OAV均大于100,对于云南白茶香气的形成贡献较大。香气特征影响(aroma character impact,ACI)值表明,不同品种云南白茶的芳樟醇与大马士酮的ACI值之和均大于80%,构成云南白茶具有花香及甜香的基本香气特征。