The enzymic degradation of lipids resulting from physical disruption of cucumber (Cucumis sativus) fruit

Homogenization of fresh tissue from cucumber fruits results in a loss of endogenous lipid catalysed by acyl hydrolase enzymes. Deacylation of lipids is not accompanied by accumulation of free fatty acids. The levels of both saturated (mainly palmitic) and polyunsaturated (linoleic and linolenic) fatty acids in the lipids are reduced. Losses of the major acyl lipid constituents of cucumber (triacylglycerols and phospholipids) are mainly responsible for the observed hydrolysis. Triacylglycerol acyl hydrolase (lipase), phospholipase D and polar lipid acyl hydrolase enzyme activities were demonstrated. It is suggested that hydrolytic attack on endogenous lipids is the initial event on disruption of cucumber tissue, in the formation of lipid degradation products, amongst which are the volatile carbonyl compounds responsible for the characteristic flavour of cucumber.     

Limitation of seedling growth by potassium and magnesium supply for two ectomycorrhizal tree species of a Central African rain forest and its implication for their recruitment

In the ectomycorrhizal caesalpiniaceous groves of southern Korup National Park, the dominant tree species, Microberlinia bisulcata, displays very poor in situ recruitment compared with its codominant, Tetraberlinia bifoliolata. The reported ex situ experiment tested whether availabilities of soil potassium and magnesium play a role. Seedlings of the two species received applications of K and Mg fertilizer in potted native soil in a local shade house, and their responses in terms of growth and nutrient concentrations were recorded over 2 years. Amended soil concentrations were also determined. Microberlinia responded strongly and positively in its growth to Mg, but less to K; Tetraberlinia responded weakly to both. Added Mg led to strongly increased Mg concentration for Microberlinia while added K changed that concentration only slightly; Tetraberlinia strongly increased its concentration of K with added K, but only somewhat its Mg concentration with added Mg. Additions of Mg and K had small but important antagonistic effects. Microberlinia is Mg‐demanding and apparently Mg‐limited in Korup soil; Tetraberlinia, whilst K‐demanding, appeared not to be K‐limited (for growth). Added K enhanced plant P concentrations of both species. Extra applied Mg may also be alleviating soil aluminum toxicity, and hence improving growth indirectly and especially to the benefit of Microberlinia. Mg appears to be essential for Microberlinia seedling growth and its low soil availability in grove soils at Korup may be an important contributing factor to its poor recruitment. Microberlinia is highly shade‐intolerant and strongly light‐responding, whilst Tetraberlinia is more shade‐tolerant and moderately light‐responding, which affords an interesting contrast with respect to their differing responses to Mg supply. The study revealed novel aspects of functional traits and likely niche‐partitioning among ectomycorrhizal caesalps in African rain forests. Identifying the direct and interacting indirect effects of essential elements on tropical tree seedling growth presents a considerable challenge due the complex nexus of causes involved.     

Indices of water deficit in susceptible and resistant cucumbers in response to infection by cucumber mosaic virus

Indices of water deficit were determined under conditions of non-limited water supply in cucumber mosaic virus (CMV)-infected seedlings of the susceptible cv. Bet Alpha. An increase in the concentration of soluble solids, decrease of water and osmotic potentials, and increase of proline concentration were found in the CMV-infected cotyledons. In the cv. Shimshon, which is resistant to CMV, virus infection caused only a slight change in the concentration of the soluble solids and in the osmotic potential; water potential and proline content were not affected. Concomitantly, infectivity of cotyledons by CMV was much lower in the tolerant cv. Shimshon than in the susceptible cv. Bet Alpha. The possible association of water deficit with virus-induced growth retardation is discussed.     

Effect of various pre-treatments on the seedling growth performance of Tamarindus indica L.

ABSTRACT

Pre-treatment of seeds of Tamarindus indica L. with 95% sulphuric acid for 5, 10 or 15 min, methanol, ethanol, iso-propanol or butanol for 10 or 20 min, or boiling water for 10, 15, 20 or 30 min, was used to determine the effect of the various treatments on the development and vigour of the resultant seedlings. Seeds immersed in methanol, ethanol and sulphuric acid for 10 min produced seedlings with high vigour     

H2S作为下游信号参与SA对低温弱光下黄瓜幼苗光合作用的调控

水杨酸(SA)和硫化氢(H₂S)在调控非生物胁迫下植物生长发育和生理代谢中均起着非常重要的作用,但二者作为信号分子在调控低温弱光下黄瓜光合作用中的互作关系还不清楚。本试验以黄瓜幼苗为试材,分别用SA和硫氢化钠(NaHS,H₂S供体)及其清除剂或抑制剂喷撒叶面,以适宜温光下去离子水处理为对照(CK),研究低温(8 ℃/5 ℃,昼/夜)弱光(100 μmol·m^-2·s^-1)下SA和H₂S对黄瓜幼苗光合作用的调控及互作关系。结果表明: SA可明显增强L-/D-半胱氨酸脱巯基酶(LCD、DCD)活性及其mRNA表达,促进内源H₂S产生;NaHS对苯丙氨酸解氨酶和异分支酸合成酶活性、mRNA表达量及内源SA含量影响不大。SA和NaHS可使低温弱光下黄瓜幼苗的光合速率、气孔导度和蒸腾速率明显提高,胞间CO₂浓度显著降低;同时增强核酮糖-1,5-二磷酸羧化酶、Rubisco活化酶、景天庚酮糖-1,7-二磷酸酯酶和果糖-1,6-二磷酸醛缩酶活性及其mRNA表达,促进光合碳同化;提高光下PSⅡ实际光化学效率和暗下PSⅡ最大光化学效率,从而减轻低温弱光胁迫对黄瓜幼苗的光合机构的损伤和生长量的影响。H₂S清除剂次牛磺酸(HT)可使SA对低温弱光下黄瓜幼苗的光合作用和生长促进效应明显减弱,而SA抑制剂多效唑和氨基茚磷酸对H₂S诱导的黄瓜幼苗光合机构对低温弱光的耐受性无显著影响,说明H₂S作为SA的下游信号,参与调控低温弱光下黄瓜幼苗的光合作用。     

解磷菌对设施土壤金属元素有效含量及黄瓜秧苗金属元素吸收量的影响

通过向设施土壤中添加解磷菌和秸秆,达到活化土壤中作物所需金属元素的含量,促进作物对中微量元素吸收的目的。试验设置对照、秸秆、解磷菌、解磷菌+秸秆4个处理,在不同时间测试土壤及秧苗中钙、镁、铜、铁、锌等的含量,确定解磷菌及秸秆对设施土壤金属元素含量及黄瓜秧苗吸收量的影响。试验结果表明,秸秆、解磷菌、秸秆+解磷菌处理能明显增加黄瓜秧苗吸收钙、镁、铁、铜的能力,对锌的吸收没有影响,其中秸秆+解磷菌处理对黄瓜秧苗吸收钙、镁、铜影响最大,促进作用分别达到6.26%、8.25%和11.57%,3种处理对设施土壤中有效钙、镁、铁的含量没有影响,但是能明显提高土壤中有效铜、锌的含量,盛果后期有效铜含量分别比对照提高12.19%、15.41%、16.49%,盛果后期有效锌含量分别比对照区提高38.8%、33.26%、56.81%。     

蓝光对蔬菜烟粉虱的控制作用

利用灯光控制害虫是蔬菜害虫绿色防控的重要手段。本研究探讨了蓝光对黄瓜烟粉虱种群及黄瓜营养物质、次生代谢物、抗性相关酶的影响。结果表明: 在直接驱避试验条件下,蓝光对烟粉虱成虫有较强的驱避作用,光照强度越大、照射时间越长,对烟粉虱的驱避作用越强。在相同光强和光照时间下,直射光较透射光的驱避作用强。其中,1200 lx的蓝光直射烟粉虱5 min后,烟粉虱的虫口减退率为77.7%,比透射光高17.4%;1750 lx的蓝光直射2 min后,虫口减退率41.2%,比透射光高10.6%。盆栽条件下,蓝光照射对黄瓜叶片上的烟粉虱也有较好的驱避作用,100 lx蓝光照射5 h后,烟粉虱种群的校正虫口减退率达到88.5%。蓝光对烟粉虱的生长发育有一定的影响,随着蓝光照射时间的延长,烟粉虱发育历期延长。此外,蓝光照射显著提高了黄瓜叶片中可溶性糖、游离蛋白、总酚和类黄酮含量,降低了脯氨酸含量,与烟粉虱抗性相关的挥发物反式-β-法尼烯、反式-2-己烯醛、顺式-4-庚烯醛、反式β-罗勒烯、D-香芹酮、长叶烯和3-蒈烯含量,以及过氧化物酶、过氧化氢酶、超氧化物歧化酶和抗坏血酸过氧化物酶活性均显著提高。说明蓝光照射能直接驱离烟粉虱,并通过改变烟粉虱寄主蔬菜的代谢途径来提高寄主蔬菜对烟粉虱的抗性。其中100 lx的蓝光照射对田间烟粉虱有较好的控制作用。     

Microbial interactions associated with secondary cucumber fermentation

Aims

To evaluate the interaction between selected yeasts and bacteria and associate their metabolic activity with secondary cucumber fermentation.

Methods and Results

Selected yeast and bacteria, isolated from cucumber secondary fermentations, were inoculated as single and mixed cultures in a cucumber juice model system. Our results confirmed that during storage of fermented cucumbers and in the presence of oxygen, spoilage yeasts are able to grow and utilize the lactic and acetic acids present in the medium, which results in increased brine pH and the chemical reduction in the environment. These conditions favour opportunistic bacteria that continue the degradation of lactic acid. Lactobacillus buchneri, Clostridium bifermentans and Enterobacter cloacae were able to produce acetic, butyric and propionic acids, respectively, when inoculated in the experimental medium at pH 4·6. Yeast and bacteria interactions favoured the survival of Cl. bifermentans and E. cloacae at the acidic pH typical of fermented cucumbers (3·2), but only E. cloacae was able to produce a secondary product.

Conclusions

The methodology used in this study confirmed that a complex microbiota is responsible for the changes observed during fermented cucumber secondary fermentation and that certain microbial interactions may be essential for the production of propionic and butyric acids.

Significance and Impact of the Study

Understanding the dynamics of the development of secondary cucumber fermentation aids in the identification of strategies to prevent its occurrence and economic losses for the pickling industry.     

Root iron plaque formation and characteristics under N2 flushing and its effects on translocation of Zn and Cd in paddy rice seedlings (Oryza sativa)

Background and Aims

Anoxic conditions are seldom considered in root iron plaque induction of wetland plants in hydroponic experiments, but such conditions are essential for root iron plaque formation in the field. Although ferrous ion availability and root radial oxygen loss capacity are generally taken into account, neglect of anoxic conditions in root iron plaque formation might lead to an under- or over-estimate of their functional effects, such as blocking toxic metal uptake. This study hypothesized that anoxic conditions would influence root iron plaque formation characteristics and translocation of Zn and Cd by rice seedlings.

Methods

A hydroponic culture was used to grow rice seedlings and a non-disruptive approach for blocking air exchange between the atmosphere and the induction solution matrix was applied for root iron plaque formation, namely flushing the headspace of the induction solution with N₂ during root iron plaque induction. Zn and Cd were spiked into the solution after root iron plaque formation, and translocation of both metals was determined.

Key Results

Blocking air exchange between the atmosphere and the nutrient solution by N₂ flushing increased root plaque Fe content by between 11 and 77 % (average 31 %). The N₂ flushing treatment generated root iron plaques with a smoother surface than the non-N₂ flushing treatment, as observed by scanning electron microscopy, but Fe oxyhydroxides coating the rice seedling roots were amorphous. The root iron plaques sequestrated Zn and Cd and the N₂ flushing enhanced this effect by approx. 17 % for Zn and 71 % for Cd, calculated by both single and combined additions of Zn and Cd.

Conclusions

Blocking of oxygen intrusion into the nutrient solution via N₂ flushing enhanced root iron plaque formation and increased Cd and Zn sequestration in the iron plaques of rice seedlings. This study suggests that hydroponic studies that do not consider redox potential in the induction matrices might lead to an under-estimate of metal sequestration by root iron plaques of wetland plants.