圆柏对几种农田杂草及作物的化感潜力分析

为探究圆柏（Sabina chinensis）的化感作用，本研究采用培养皿滤纸法研究圆柏叶片浸提液对地肤（Kochia scoparia）、稗草（Echinochloa crusgalli）、藜（Chenopodium album）、反枝苋（Amaranthus retroflexus）、马齿苋（Portulaca oleracea）5种杂草种子和向日葵（Helianthus annuus）、燕麦（Avena sativa）、油菜（Brassica campestris）、荞麦（Fagopyrum esculentum）4种作物萌发和生长的影响，并用圆柏叶片、树枝、树皮粉末和浸提液进行盆栽抑草效果检测。结果表明：圆柏叶片浸提液对5种杂草种子萌发和幼苗生长具有显著的抑制作用，对地肤、藜、反枝苋萌发及生长的化感效应指数均在-0.98以上；盆栽抑草结果表明，圆柏不同部位对5种杂草种子萌发和稗草及反枝苋株高生长均有较好的抑制作用，叶片化感强度大于树皮和树枝，叶片粉末拌土处理抑草效果好于浸提液叶面喷施；对作物的化感作用结果表明，圆柏叶片浸提液稀释1.5倍时，抑制荞麦种子萌发但不影响其株高及根生长，不影响燕麦种子萌发但降低其株高和根长生长，抑制油菜的发芽势和发芽指数但不影响其种子萌发率，促进油菜株高及根长生长，不影响向日葵种子萌发和生长。综上所述，圆柏具有良好的抑草活性，对作物影响较小。     

Fungal and bacterial N2O production regulated by soil amendments of simple and complex substrates

Fungal N₂O production results from a respiratory denitrification that reduces NO₃⁻/NO₂⁻ in response to the oxidation of an electron donor, often organic C. Despite similar heterotrophic nature, fungal denitrifiers may differ from bacterial ones in exploiting diverse resources. We hypothesized that complex C compounds and substances could favor the growth of fungi over bacteria, and thereby leading to fungal dominance for soil N₂O emissions. Effects of substrate quality on fungal and bacterial N₂O production were, therefore, examined in a 44-d incubation after soils were amended with four different substrates, i.e., glucose, cellulose, winter pea, and switchgrass at 2 mg C g⁻¹ soil. During periodic measurements of soil N₂O fluxes at 80% soil water-filled pore space and with the supply of KNO₃, substrate treatments were further subjected to four antibiotic treatments, i.e., no antibiotics or soil addition of streptomycin, cycloheximide or both so that fungal and bacterial N₂O production could be separated. Up to d 8 when antibiotic inhibition on substrate-induced microbial activity and/or growth was still detectable, bacterial N₂O production was generally greater in glucose- than in cellulose-amended soils and also in winter pea- than in switchgrass-amended soils. In contrast, fungal N₂O production was more enhanced in soils amended with cellulose than with glucose. Therefore, fungal-to-bacterial contribution ratios were greater in complex than in simple C substrates. These ratios were positively correlated with fungal-to-bacterial activity ratios, i.e., CO₂ production ratios, suggesting that substrate-associated fungal or bacterial preferential activity and/or growth might be the cause. Considering substrate depletion over time and thereby becoming limited for microbial N₂O production, measurements of soil N₂O fluxes were also carried out with additional supply of glucose, irrespective of different substrate treatments. This measurement condition might lead to potentially high rates of fungal and bacterial N₂O production. As expected, bacterial N₂O production was greater with added glucose than with added cellulose on d 4 and d 8. However, this pattern was broken on d 28, with bacterial N₂O production lower with added glucose than with added cellulose. In contrast, plant residue impacts on soil N₂O fluxes were consistent over 44-d, with greater bacterial contribution, lower fungal contribution, and thus lower fungal-to-bacterial contribution ratios in winter pea- than in switchgrass-amended soils. Real-time PCR analysis also demonstrated that the ratios of 16S rDNA to ITS and the copy numbers of bacterial denitrifying genes were greater in winter pea- than in switchgrass-amended soils. Despite some inconsistency found on the impacts of cellulose versus glucose on fungal and bacterial leading roles for N₂O production, the results generally supported the working hypothesis that complex substrates promoted fungal dominance for soil N₂O emissions.     

局地尺度高寒草原土壤真菌多样性对地上植物多样性与生产力关系的调控作用

为研究局地尺度高寒草原土壤真菌多样性对地上植物多样性与生产力关系的调控作用，本研究以青海省湟源县局地尺度高寒草原为研究对象，对不同植物多样性梯度的地上生产力、土壤理化性状和土壤真菌多样性等指标进行调查、采样和分析。通过偏回归分析（partial least squares regression，PLSR）、方差分解分析（variance partitioning analysis，VPA）、构建结构方程模型（structural equation model，SEM）等分析手段，分析了土壤真菌多样性对地上植物多样性与生产力关系的调控作用。结果表明，高寒草原植物多样性与地上生产力存在显著线性正相关关系；土壤真菌多样性分别与植物多样性和地上生产力呈显著正相关关系；通过PLSR，VPA，SEM等方法控制土壤非生物因子效应后，真菌多样性与二者的显著正相关关系仍存在。综上所述，局地尺度下青海省湟源县高寒草原土壤真菌多样性是调控地上植物多样性与生产力正向关系的关键生物因子。     

Plant–soil interactions in metal contaminated soils

The legacy of industrialization has left many soils contaminated. However, soil organisms and plant communities can thrive in spite of metal contamination and, in some cases, metabolize and help in remediation. The responses of plants and soil organisms to contamination are mutually dependent and dynamic. Plant–soil feedbacks are central to the development of any terrestrial community; they are ongoing in both contaminated and healthy soils. However, the theory that governs plant–soil feedbacks in healthy soils needs to be studied in contaminated soils. In healthy soils, negative feedbacks (i.e. pathogens) play a central role in shaping plant community structure. However to our knowledge, the nature of feedback relationships has never been addressed in contaminated soils. Here we review literature that supports a plant–soil feedback approach to understanding the ecology of metal-contaminated soil. Further, we discuss the idea that within these soils, the role of positive as opposed to negative plant–soil feedbacks may be more important. Testing this idea in a rigorous way in any ecosystem is challenging, and metal contamination imposes an additional abiotic constraint. We discuss research goals and experimental approaches to study plant–soil interactions applicable to metal-contaminated soils; these insights can be extended to other contaminated environments and restoration efforts.     

植物种群构件的理论概述及研究进展

综述了植物种群构件的理论概况和国内外的研究现状以及对我国种群构件的研究展望.文中指出构件理论的思想依据、形态依据、生理依据和构件理论的五项基本内容.同时,论述了近30余年来,包括植物花构件、叶构件、芽构件、枝构件、茎构件、根构件等在内的植物种群构件研究现状.我国植物种群构件研究要注意构件间的相互作用以及构件与环境间的相互作用;注意与生理生态相结合;研究对象多元化,为开发和保护我国植物资源提供科学依据,将构件研究成果转化为生产力.     

成都市典型农家乐植物组成特征研究

本文在成都市北湖公园、农科村、三圣乡选取了60个成都市典型农家乐,对植物群落进行了调查和分析。结果表明:成都市典型农家乐植物群落中应用的乔木种类有56种,灌木种类83种,草本种类有118种,共计257种,分属91科184属。在植物种类组成方面,成都北湖公园的乔木种类所占比例最高,达到22.39%;郫县农科村的灌木种类所占的比例是最高的,达到36.55%;而三圣乡"五朵金花"的草本种类所占的比例最高,达到47.92%。农科村主要树木的平均胸径为13.32±9.07?,平均高度为5.53±2.49 m,在3个地方中均为最高。群落外貌方面,三圣乡"五朵金花"和郫县农科村农家乐以常绿阔叶和落叶阔叶的混交林为主,针叶林少。成都北湖公园则以常绿阔叶为主,落叶和针叶林少。60个农家乐平均配置乔木5.1±2.47(N=60)种,平均配置灌木8.77±3.41(N=60)种,平均拥有草本11.83±6.75(N=60)种,超过50%的植物种类为三地或两地共有,植物配置呈现明显的相似性。     

复混型植物生长调节剂对骏枣光合特性及品质构成因素的影响

为了研究复混型植物生长调节剂对骏枣光合特性和品质构成因素的影响,选用4年生密植骏枣为对象,以5-ALA、GA3和CPPU为材料进行复配7个配方,调查分析其在盛花初期喷施后对果实发育过程中光合特性以及品质特征的影响.结果表明:①5 μg/g5-ALA+ 10 μg/gGA3+ 15 μg/gCPPU较GA3显著提高叶片净光合速率和水分利用率.②5 μg/g5-ALA+ 10 μg/gGA3+ 15 μg/gCPPU和20μg/g 5-ALA处理的产量分别较对照提高了38.00％和43.85％;降低了总糖和总酸的含量,但糖酸比分别较对照提高了19.13％和19.31％.故在枣树盛花初期间隔7d喷施2次5μg/g,5-ALA+10 μg/gGA3+ 15 μg/gCPPU或20μg/g5-ALA均有增加产量和改善果实品质的作用.     

火烧后亚高山草甸恢复过程中物种组成和群落特征变化规律的研究

为了解火烧对植物群落结构和植被恢复速度的影响,本研究以甘肃省皇城羊场亚高山草甸为研究对象,于2017年5月进行了火烧试验,并分别在2017,2018及2019年的5月（返青期）、7月（生长期）和9月（生长末期）测量了该区域火烧样地和原生样地的植被覆盖度、群落多样性和裸地百分比等指标。结果表明：2019年5月后火烧样地与原生样地间植物群落多样性指数（Margalef指数、Shannon-Wiener指数、Simpson指数和Pielou指数）间差异不显著;火烧后引起的植物结构变化是短暂的,并随着时间的推移逐渐减少甚至消失,恢复时间大约16个月左右;同时火烧改变了物种组成,其中在火烧样地中甘肃马先蒿（Pedicularis kansuensis）和锐果鸢尾（Iris goniocarpa）逐渐消失,而鳞叶龙胆（Gentiana squarrosa）和火绒草（Leontopodium leontopodioides）逐渐出现。本研究说明春季火烧对亚高山草甸植物组成和结构有一定的调节作用,可作为亚高山草甸管理的有效措施。     

琥珀酸黄杆菌促生机理及其对多年生黑麦草生长和抗逆性的生理调控作用

为探究琥珀酸黄杆菌（Flavobacterium succinicans）对非生物胁迫下多年生黑麦草（Lolium perenne）的缓解效应,本试验研究了菌株DSM4002的生物学特性,并在盆栽条件下,分析了干旱（维持相对含水量（30±5）%处理7 d和14 d）、低温（4℃处理3 d和7 d）和盐胁迫（150 mM NaCl处理5 d和10 d）下根际接种DSM4002对多年生黑麦草生长和生理特性的影响。结果表明,DSM4002具有分泌吲哚乙酸（Indole-3-acetic acid,IAA）、溶磷和产铁载体能力,对壮观霉素、卡那霉素等具有抗性,对氯霉素敏感。同时,接种DSM4002能够提高正常生长、干旱、低温和盐胁迫下多年生黑麦草的生物量、抗氧化酶活性、可溶性糖和脯氨酸含量,降低相对电导率和丙二醛（Malondialdehyde,MDA）含量。综上,琥珀酸黄杆菌促进多年生黑麦草的生长与其自身具有分泌IAA、溶磷和产铁载体能力有关,而且它能够调节植物体内氧化还原平衡,从而增强多年生黑麦草的抗旱、抗寒和抗盐能力。     

Flowering phenology of a herbaceous species (Poa annua) is regulated by soil Collembola

The role of soil organisms as possible driver of flowering has never been investigated. We hypothesized that Collembola (microarthropods) will change plant allocation to reproductive modes by changing soil nutrient availability. Individual seedlings of Poa annua were planted in microcosms, in the presence or absence of Collembola. Collembola affected biotic (fungal biomass) and abiotic ($\text{N}-{{\text{NO}}_3}^{-}$, P₂O₅) soil properties and some morphological (number of leaves, root biomass) and chemical (C:N, K, Mg, N) traits of P. annua. As a result, flowering of P. annua was promoted by the presence of Collembola. This provides experimental evidence that soil microarthropods can affect the reproduction strategy and phenology of a plant.