Activity and allelopathy of soil of flavone o-glycosides from rice

Two flavone O-glycosides were isolated from allelopathic rice seedlings and have been identified as 5,4'-dihydroxy-3',5'-dimethoxy-7-O-beta-glucopyranosylflavone and 7,4'-dihydroxy-3',5'-dimethoxy-5-O-beta-glucopyranosylflavone. Considerable levels of these glycosides could be found in allelopathic rice tissues. They could not be detected in the soils growing these allelopathic rice seedlings. Only their aglycone, 5,7,4'-trihydroxy-3',5'-dimethoxyflavone, could be found in the soil. Further experiments showed that two flavone O-glycosides were exuded from allelopathic rice roots to the rihzosphere and then transformed into their aglycone form, that is, 5,7,4'-trihydroxy-3',5'-dimethoxyflavone, with a great diversity of biological activities on associated weeds and microbes by soil interactions once released. The glycosides degraded rapidly (t1/2 < 2 h), whereas their aglycone was more resistant toward degradation in paddy soils, in which the half-life (t1/2) at low (25 mug/g) and high (200 mug/g) doses reached 19.86 +/- 3.64 h (r 2 = 0.97) and 28.78 +/- 3.72 h (r 2 = 0.98), respectively. Furthermore, the mobility of both glycosides and their aglycone in paddy soil was evaluated by soil TLC with bioassay. The mobility of the glycosides (Rf = 0.418 +/- 0.069, n = 18) is higher than that of the aglycone (Rf = 0.361 +/- 0.048, n = 18). The results suggested that two flavone O-glycosides are formed in rice biosynthesis and that storage of the allelochemicals and their aglycone 5,7,4'-trihydroxy-3',5'-dimethoxyflavone is the agent of alleloapthic rice which interferes with weeds or microbes in paddy soil.     

Urease,invertase, dehydrogenase and polyphenoloxidase activities in paddy soil influenced by allelopathic rice variety

Allelopathic rice variety can release allelochemicals from roots to soil in which interfere with neighboring plant and microbial species, but little is currently known about their effect on enzyme activities of paddy soils. This study showed that enzyme activities and concentrations of allelochemicals in paddy field varied with rice varieties, growth stages and moisture regime. Allelopathic rice variety PI312777 paddy fields had higher levels of soil urease, invertase, dehydrogenase and polyphenoloxidase activities when compared to non-allelopathic rice variety Liaojing-9. Furthermore, allelopathic PI312777 released much higher concentrations of allelochemical 5,7,4′-trihydroxy-3′,5′-dimethoxyflavone than non-allelopathic Liaojing-9 during the whole growth stages. Both rice root exudates and the flavone changed soil enzyme activities, but their effects could be distinguished by allelopathic PI312777 and non-allelopathic Liaojing-9 varieties tested. There was a correlation with concentrations of the flavone and enzyme activities in rice soil. The flavone increased enzyme activities, but all test enzyme activities were less responsive to the flavone in flooded soil than in non-flooded soil. The flavone given the short half-life easily degraded in rice soil, but the flavone was more resistant toward degradation in non-flooded soil. These results suggest that the urease, invertase, dehydrogenase and polyphenoloxidase activities of paddy soils may be positively influenced by allelopathic rice variety through the release of allelochemicals.     

Impact of allelochemical exuded from allelopathic rice on soil microbial community

Allelopathic rice releases allelochemicals from its roots to paddy soils at early growth stages to inhibit neighboring weeds. However, little is currently known about the effects of allelochemicals on soil microbes. In this study, we show that allelopathic rice can have great impact on the population and community structure of soil microbes. Allelopathic rice PI312777 seedlings reduced the culturable microbial population and total PLFA when compared to non-allelopathic rice Liaojing-9. Similar results were observed when, instead of growing seedlings, soils were incubated with plant root exudates. This result demonstrates that the composition of root exudates from the rice varieties tested contributes to the soil microbial community. Further experiments showed that the microbial community was affected by the allelochemical 5,4′-dihydroxy-3′,5′-dimethoxy-7-O-β-glucopyranosylflavone exuded from allelopathic rice roots, through immediately hydrolyzing glucose with stimulation on soil bacteria and aglycone (5,7,4′-trihydroxy-3′,5′-dimethoxyflavone) with inhibition on soil fungi. This result indicates that the flavone O-glycoside can provide carbon and interact with soil microbes. PC analysis of the fatty acid data clearly separated the allelopathic PI312777 and the non-allelopathic Liaojing-9 variety (PC1 = 46.4%, PC2 = 20.3%). Similarly, the first principal component (PC1 = 37.4%) together with the second principal component (PC2 = 17.3%) explained 54.7% of the variation between the allelopathic and non-allelopathic root exudates. Furthermore, the canonical correlation between allelopathic root exudates and the flavone O-glycoside was statistically significant (Canonical R = 0.889, χ² (25) = 69.72, p = 0.0041). Although the data generated in this study were not completely consistent between culturable microbes and PLFA profile, it is a fact that variation in soil microbial populations and community structures could be distinguished by the allelopathic and non-allelopathic rice varieties tested. Our results suggest that individual components of rice root exudates, such as allelochemicals from allelopathic rice, can modify the soil microbial community.     

Release and activity of allelochemicals from allelopathic rice seedlings

3-Isopropyl-5-acetoxycyclohexene-2-one-1 (1), momilactone B (2), and 5,7,4'-trihydroxy-3',5'-dimethoxyflavone (3) were isolated and identified from an allelopathic rice accession PI312777. These three compounds at low concentrations could inhibit the growth of weeds Echinochloa crusgalli and Cyperus difformis associated with rice, especially mixtures of the compounds had stronger inhibitory activity than did individual compounds. Studies with hydroponic culture, continuous root exudates trapping system (CRETS), and direct resin adsorption methods showed that a total of 7.6 n moles 1, 2, and 3 were exuded from living roots of each seedling into the environment at 10 days after seedlings were transplanted. Furthermore, 1, 2, and 3 were found in the soil growing PI312777 seedlings at day 15 after seedlings emergence and reached a total of 39.5 microg/g soil at day 30. The results indicated that PI 312777 seedlings could release sufficient quantities of 1, 2, and 3 into the environment to act as allelochemicals inhibiting the growth of associated weeds. Investigations on the distribution of 1, 2, and 3 in PI 312777 plant, and its root exudates showed that the levels of 1, 2, and 3 were significantly higher in the shoots and root exudates than in the roots, and only trace 1 was observed in the roots. The results suggest that the roots of rice seedlings are not major site of synthesis or accumulation 1, 2, and 3, but a pathway for their release into the environment. The levels of 1, 2, and 3 in the root exudates were over 2-folds higher under direct resin adsorption than under hydroponic culture and CRETS, and hence, it is the preferred method to collect and identify active allelochemicals in rice exudates in future studies on rice allelopathy.     

Sorption of benzoic acid onto soil colloids and its implications for allelopathy studies

The fate of allelochemicals in the soil environment largely determines the expression of allelopathy in the natural environment. In allelopathy research, the sorption of allelochemicals onto soil particles has been less well studied than their degradation. A study was carried out to evaluate the growth of cucumber (Cucumis sativus var Marketmore 76) and radish (Raphanus sativus var Crimson giant) in soil amended with 1, 5, 10 and 20 mg l^–1 benzoic acid as model allelopathic substance. Growth of both cucumber and radish was not inhibited in soil amended with benzoic acid. A labeled study indicates that sorption of benzoic acid onto soil particles increases with concentration. Benzoic acid isotherms of both soils were non-linear, with an N value of 0.875 for a garden soil and 0.891 for a garden soil + sand, and they may explain the reason for the limited allelopathic effect of benzoic acid at concentrations often recorded in natural soil.     

田间旱育条件下不同化感潜力水稻根际土壤酚酸类和萜类物质分析

酚酸类和萜类是水稻化感作用研究中研究较多、争议较大的2大类化感物质,但目前有关水稻根系分泌物的研究多在实验室条件下进行。本文以国际公认的强化感水稻‘PI312777’和弱化感水稻‘Lemont’为材料,以未种植水稻的土壤为对照,研究了其在田间旱育条件下,不同土壤水分状态(旱地和湿地)时,根际土壤酚酸类和萜类物质的差异。结果表明,不同水分条件下不同化感潜力水稻品种和对照根际土壤中酚酸类物质和萜类物质的组成较为相似,但各物质含量存在一定差异。适度旱胁迫下,各处理根际土壤中所检测到的咖啡酸、对羟基苯甲酸、香草酸、阿魏酸和肉桂酸5种酚酸类物质及总量均有提高,其中强化感水稻‘PI312777’根际土壤中5种酚酸类物质提高最显著,比CK湿地处理提高2.84倍;在各处理根际土壤共检测到的27种萜类物质中,17种是含氧单萜;干旱胁迫导致各处理根际土壤单萜烯、含氧单萜、含氧倍半萜和总萜变化程度和变化趋势不同,单萜烯相对含量在强化感水稻‘PI312777’根际土壤中明显提高,而在弱化感水稻‘Lemont’和对照根际土壤中则降低。本文在此基础上讨论了由此导致2种水稻田间化感抑草效果差异的原因与机制。     

外源酚酸在杨树人工林土壤中的吸附与滞留动态研究

采集不同连作代数杨树人工林土壤样品,采用外源添加酚酸的方法结合HPLC定量测定,研究了对羟基苯甲酸和苯甲酸在杨树人工林土壤中的吸附动态和滞留规律,探讨了两种酚酸在杨树人工林土壤中的累积机制。结果表明:(1)两种酚酸在杨树人工林土壤中的吸附可大致分为两个过程,即快速吸附阶段和慢吸附阶段,对羟基苯甲酸的快速吸附阶段大约在16h内完成,而苯甲酸约需24h。达到吸附平衡时,对羟基苯甲酸在土壤中的平均吸附率为58.78%,苯甲酸的平均吸附率为37.07%。(2)杨树人工林土壤对两种酚酸均具有较强的吸附能力,达到吸附平衡时,对羟基苯甲酸在土壤中的平均吸附量为2483.19μg/g,苯甲酸为1377.51μg/g,对羟基苯甲酸的吸附能力强于苯甲酸。(3)Langmuir动力学方程和一级动力学方程是描述两种酚酸在土壤中吸附过程的最优模型。(4)酚酸滞留量检测结果表明,酚酸添加15d后,对羟基苯甲酸在土壤中的残留率为4.3%～5.2%,而苯甲酸的残留率仅为1.3%～1.7%。两种酚酸在土壤中的滞留动态可以用准二级动力学方程进行描述,对羟基苯甲酸的消除半衰期平均为4.24d,苯甲酸消除半衰期平均为2.61d,对羟基苯甲酸在土壤中的滞留期长于苯甲酸。(5)两种酚酸的吸附与滞留行为与土壤有机质、金属离子、土壤质地等性质关系密切,微生物数量也是决定酚酸在土壤中滞留能力的重要因素。     

Prenylated flavanones isolated from flowers of Azadirachta indica (the neem tree) as antimutagenic constituents against heterocyclic amines

Four prenylated flavanones were isolated from the methanol extract of the flowers of Azadirachta indica (the neem tree) as potent antimutagens against Trp-P-1 (3-amino-1,4-dimethyl-5H-pyrido[4,3-b]indole) in the Salmonella typhimurium TA98 assay by activity-guided fractionation. Spectroscopic properties revealed that those compounds were 5,7,4'-trihydroxy-8-prenylflavanone (1), 5,4'-dihydroxy-7-methoxy-8-prenylflavanone (2), 5,7,4'-trihydroxy-3',8-diprenylflavanone (3), and 5,7,4'-trihydroxy-3',5'-diprenylflavanone (4). All isolated compounds were found for the first time in this plant. The antimutagenic IC(50) values of compounds 1-4 were 2.7 +/- 0.1, 3.7 +/- 0.1, 11.1 +/- 0.1, and 18.6 +/- 0.1 microM in the preincubation mixture, respectively. These compounds also similarly inhibited the mutagenicity of Trp-P-2 (3-amino-1-methyl-5H-pyrido[4,3-b]indole) and PhIP (2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine). All of the compounds 1-4 strongly inhibited ethoxyresorufin O-dealkylation activity of cytochrome P450 1A isoforms, which catalyze N-hydroxylation of heterocyclic amines. However, compounds 1-4 did not show significant inhibition against the direct-acting mutagen NaN(3). Thus, the antimutagenic effect of compounds 1-4 would be mainly based on the inhibition of the enzymatic activation of heterocyclic amines.     

水稻化感物质作用特性的研究

在对水稻化感作用生理生化特性研究的基础上，进行了水稻叶片浸提液的GC-MS分析和相关酶的活性测定。结果表明，水稻叶片中苯丙氨酸裂解酶（PAL）和肉桂酸-4-羟化酶（CA4H）活性的大小与酚的含量密切相关，同时水稻化感作用强度与其肉桂酸含量呈正相关关系。而与其水杨酸含量呈负相关关系，因此水稻化感作用是由许多化感物质共同作用的结果。     

Separation and purification of tricin from an antioxidant product derived from bamboo leaves

Tricin (5,7,4'-trihydroxy-3',5'-dimethoxyflavone) occurs in its glycosidic form in rice bran and other grass species such as wheat, barley, and maize. Tricin is considered sufficiently safe for clinical development as a cancer chemopreventive agent, therefore it can be used for cancer prevention. This study established a new method for the preparation of tricin from bamboo leaves as an alternative to traditional methods such as chemical synthesis via the Baker-Venkata-Raman reaction between acetylsyringic acid and phloroacetophenone. Tricin was prepared from an antioxidant product that was derived from bamboo leaves (AOB) by extraction with aqueous ethanol. A concentrated solution of this product was obtained and then processed by polystyrene (AB-8) resin column chromatography and preparative high-performance liquid chromatography (HPLC) with 30% (v/v) acetonitrile in 1% (v/v) acetic acid as the mobile phase. The collected tricin-rich fraction was further sequentially purified by dialysis membrane separation and drowning-out crystallization methods. The purity was assessed by analytical HPLC with 25% (v/v) acetonitrile in 1% (v/v) acetic acid as the mobile phase, and the chemical confirmation was evaluated by infrared, mass, nuclear magnetic resonance, and ultraviolet spectroscopies. Tricin (3.09 g) was prepared from 174 g of a crude column chromatography fraction obtained from 5 L of AOB concentrated solution. The present method is appropriate for preparing quantities of pure tricin, which can be used for the quantification of tricin in various plant herbs and further for pharmaceutical/biomedical applications and evaluation.     

重金属污染对水稻土微生物及酶活性影响研究进展

水稻土受到重金属污染不仅影响水稻的产量品质，而且对水稻土微生物及酶活性的影响不容忽视。本文系统综述了水稻土重金属污染的来源，重金属污染对水稻土微生物生物量、种群数量、群落结构以及土壤酶活性的影响，并针对重金属污染对水稻土微生态效应研究的不足提出了未来应该研究的重点和方向，指出：①加强水稻-重金属-微生物三者相互作用、相互影响方面的研究；②在研究重金属污染与水稻土土壤微生物生态特征的关系的基础上，加强对重金属、土壤理化性状和水稻等因素进行综合并定量化分析，将是明确重金属对土壤微生物生态特性的影响及相关机理的关键；③应用分子生物学方法以及系统生物学方法，促进重金属污染胁迫下水稻土微生物活性及功能的演变规律及响应适应过程；④加强基于长期定位实验的研究，在较长的时间尺度和较大的空间尺度上认识水稻土生态系统在重金属胁迫下的演变规律和机制；⑤重金属污染对水稻土酶活性的研究应重点从机理方面入手，注重结合土壤酶的动力学参数和热力学参数，深化土壤酶与复合污染的作用机理，进一步揭示复合污染致毒途径及其机理，同时借助分子手段，探索重金属污染水稻土中更多未发现的酶的特性，寻找更加敏感、更能普遍推广的重金属污染土壤的综合性指标，以期为重金属污染水稻土的风险评价和生物修复提供科学依据。     

烤烟根际土壤微生物对根系酚酸类物质的响应

【目的】烟草连作导致化感物质累积,探索化感物质中主要的酚酸类物质对根际土壤微生物的影响,可为克服烟草连作障碍提供理论依据。【方法】采用盆栽试验方法,将前期分离、鉴定出的烟草根系分泌物中主要酚酸类物质苯甲酸和3-苯丙酸接种到土壤中,模拟烟草多年连作土壤。试验设4个处理:对照(T0),向土壤中加入等量灭菌去离子水;添加苯甲酸3μg/kg土(T1);3-苯丙酸8μg/kg土(T2);同时添加苯甲酸3μg/kg土和3-苯丙酸8μg/kg土(T3),每处理5次重复。以MiSeq测序平台对根际土壤微生物进行高通量测序,探索其对根际土壤微生物的影响,同时采用荧光定量PCR法检测土壤中的茄科劳尔氏菌、短短芽孢杆菌、固氮菌、无机磷细菌、硅酸盐细菌等功能微生物及细菌和真菌的数量变化。【结果】T 1、 T 2处理土壤细菌OTUs(Operational Taxonomic Units)数目分别比对照T0降低了21.5%和17.0%,T3处理OTU数量低于T1和T2处理;T2处理土壤中优势微生物种群增多,结构平衡性降低,门上分类构成和微生物群落构成显著不同于对照。主成分分析与聚类分析显示,T2或T3处理土壤微生物聚类关系较近,都与T0处理较远;T3处理土壤中病原菌数量显著提高,拮抗菌、固氮菌、无机磷细菌、硅酸盐细菌、细菌和真菌数量显著减少,且减少幅度大于T1、T2处理。【结论】根系分泌物中主要酚酸类物质苯甲酸和3-苯丙酸均能明显改变根际土壤微生物区系,降低土壤微生群落多样性,显著增加有害微生物数量的同时大大降低有益微生物数量。两种酚类同时存在的危害效果远大于单一酚类。     

Are phenolics leaching from the lichen Cladina stellaris sources of energy rather than allelopathic agents for soil microorganisms?

Lichen phenolics that are known to leach out from lichen thalli during rainfall episodes are considered to be allelopathic or antimicrobial agents. On the other hand, small organic molecules originating from aboveground vegetation generally constitute an important C source for the soil microbial community. We studied the effects of leaching lichen acids on soil microbial processes by chemically removing usnic (UA) and perlatolic acid (PA) from the extracellular space of mat-forming lichen, Cladina stellaris, a dominant component of the ground vegetation in boreal oligotrophic forests. Removal of UA and PA did not affect the intracellular contents of the lichen. We hypothesized that if lichen acids have an adverse effect on soil biota, microbial respiration would increase underneath chemically manipulated lichen mats. In turn, if these substances provide energy source for the microorganisms, microbial respiration would decline under lichens from which PA and UA has been removed. Microbial metabolic activity, qCO₂ was significantly lower under the lichens from which UA and PA had been removed, thus supporting the latter hypothesis. Removing UA and PA did not affect the amount of microbial C, N and P, or soil nutrient concentrations. Our results suggest that the microbial community in the soil under a lichen carpet is adapted to the presence of these lichen secondary metabolites and can utilize them as a C source. The approach of removing lichen substances from the system could be used as an effective research tool as it can overcome several problems that are often common in the studies on allelopathic interactions.     

Root-mediated allelopathic interference of bhringraj (Eclipta alba L.) Hassk. on peanut (Arachis hypogaea) and mung bean (Vigna radiata)

The root mediated allelopathic interference of Eclipta alba infested soil on growth, physiological parameters and antioxidant enzyme activity was conducted on Arachis hypogaea L. and vigna radiata L. It was found that rhizosphere soil significantly reduced the germination percentage, seedling growth and dry biomass depending upon the species sensitivity. The germination inhibition was correlated with membrane deterioration as proved by a strong electrolyte leakage, increase in malondialdehyde (MDA) and H₂O₂ content. The physiological parameters like chlorophyll content, photosynthetic rate (P_n), intercellular CO₂ concentration (C_i), stomatal conductance (G_s), and transpiration (E) also showed significant reduction in E. alba infested soil and non-significant increase in leaf temperature (L_t) of two test species. The test seedlings have circumvented the allelochemicals stress, by both significant decrease and non-significant increase in the antioxidant activities in E. alba infested soil in contrast to control soil. Rhizosphere soil contained significantly higher amount of water-soluble phenolics as the putative allelochemicals, which were vanillic acid, benzoic acid, ferulic acid, and p-coumaric acid. The study concluded that rhizosphere soil exerts an allelopathic influence on peanut and mung bean by releasing water soluble phenolic acids as putative allelochemicals in soil.     

植物根分泌的化感物质及其在土壤中的环境行为

植物根系是化感物质进入土壤的重要通道。根系分泌物中含有大量具有化感活性的物质,其中以小分子的酚、酸最为常见,这些物质对植物自身及植物根际微生物和土壤酶具有广泛影响,一度成为化感研究的重要内容。自然状态下根系分泌化感物质的活性效应与植物根系分泌化感物质的强度和累积、化感物质本身的特性以及土壤对化感物质的吸附和降解能力有关。因此,研究化感物质在土壤中的迁移、吸附-解吸附、降解等环境行为是揭示化感物质累积机制的重要工作,应该成为化感研究的重要内容,在今后的研究中应给予充分重视。     

不同施肥处理对水稻养分吸收和稻田土壤微生物生态特性的影响

在水稻长期定位肥料试验条件下研究了不同施肥处理对水稻养分吸收动态变化和土壤微生物生态特性的影响。该长期定位试验设有CK(不施肥对照)和PK、NK、NP、NPK五个肥料处理和常规稻、杂交稻品种对比处理。研究结果表明,水稻产量分别与水稻吸氮总量、吸磷总量和吸钾总量显著相关;在连续种植水稻条件下,水稻对所缺养分的吸收量呈逐年下降趋势,表明缺肥区土壤相应的有效养分库消耗很快。土壤微生物特性测定表明,不平衡施肥降低了土壤微生物量N,使微生物量C/N比增加。与缺肥区相比较,NPK配施处理促进了土壤微生物的功能多样性,同时增加了土壤微生物总量。可见,土壤中养分不足或供应不平衡,不仅影响水稻养分的吸收,而且对土壤微生物总量和群落多样性产生重要影响。     

Effect of cinnamic acid on soil microbial characteristics in the cucumber rhizosphere

In order to elucidate the effect of allelochemicals on soil microbial characteristics in the cucumber rhizosphere, the soil microbial biomass and respiration, community functional diversity and RAPD marker diversity as affected by exogenous cinnamic acid were studied. Exogenous cinnamic acid increased soil microbial respiration and the metabolic quotient, but decreased soil microbial biomass-C. Soil microbial community functional diversity and genetic diversity (as indicated by RAPD markers) were also significantly altered by exogenous cinnamic acid. These results suggest that allelochemicals can change soil microbial genetic diversity, biological activity and microbial metabolic activity, which alter soil microbial ecology and accordingly affect the growth of cucumber with accumulation in the soil of allelochemicals.     

Antioxidant polyphenols from tart cherries (Prunus cerasus).

Montmorency and Balaton tart cherries were lyophilized and sequentially extracted with hexane, ethyl acetate, and methanol. Methanolic extracts of dried Balaton and Montmorency tart cherries (Prunus cerasus) inhibited lipid peroxidation induced by Fe(2+) at 25 ppm concentrations. Further partitioning of this methanol extract with EtOAc yielded a fraction that inhibited lipid peroxidation by 76% at 25 ppm. Purification of this EtOAc fraction afforded eight polyphenolic compounds, 5,7,4'-trihydroxyflavanone (1), 5,7, 4'-trihydroxyisoflavone (2), chlorogenic acid (3), 5,7,3', 4'-tetrahydroxyflavonol-3-rhamnoside (4), 5,7,4'-trihydroxyflavonol 3-rutinoside (5), 5,7,4'-trihydroxy-3'methoxyflavonol-3-rutinoside (6), 5,7,4'-trihydroxyisoflavone-7-glucoside (7), and 6, 7-dimethoxy-5,8,4'-trihydroxyflavone (8), as characterized by (1)H and (13)C NMR experiments. The antioxidant assays revealed that 7-dimethoxy-5,8,4'-trihydroxyflavone (8) is the most active, followed by quercetin 3-rhamnoside, genistein, chlorogenic acid, naringenin, and genistin, at 10 microM concentrations.     

稻田土壤微生物残体积累对外源秸秆输入的响应研究进展

稻田土壤碳循环是我国陆地生态系统碳循环的重要组成部分。促进稻田生态系统碳的固定及稳定对减缓全球气候变化起着不容忽视的作用。微生物主导的有机碳转化过程是土壤碳循环研究的核心,微生物同化代谢介导的细胞残体迭代积累在土壤有机碳长期截获和稳定过程中发挥重要作用。与旱地土壤相比,关于稻田土壤中微生物残体积累动态对外源有机物质如作物秸秆输入的响应及主要影响因子的认识还相对有限,对微生物通过同化作用参与土壤固碳的过程和机制尚缺乏系统认识。基于此,本文介绍了微生物残体对土壤有机碳库形成和积累的重要性及评价指标,重点探讨了秸秆还田对稻田土壤微生物残体积累动态以及外源秸秆碳形成细胞残体转化过程的影响,分析了影响微生物残体积累转化的主要气候因素和土壤因素,最后提出了未来应借助先进的光谱和高分辨率成像技术并结合同位素示踪对微生物残体的稳定性与机理开展更为深入的研究。     

水稻化感作用的研究进展

综述了水稻化感作用的研究进展,包括水稻与其他植物相互间的化感作用、水稻化感物质的分离鉴定及其特征特性、水稻化感育种、水稻化感作用与农业可持续发展等方面进展。