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31.
以紫花苜蓿幼苗为材料,用聚乙二醇(PEG-6000)作为渗透介质人工模拟干旱条件,外源喷施NO供体硝普钠(SNP)、钙信号试剂CaCl2、NO抑制剂亚甲基蓝(MB)和Ca2+通道阻断剂LaCl3,对紫花苜蓿幼苗光合特征、抗氧化酶活性及过氧化物酶(POD)同工酶图谱进行研究,探讨了渗透胁迫下NO介导的Ca2+信号对紫花苜蓿幼苗光合作用及抗氧化能力的影响。结果表明:在渗透胁迫条件下,施加SNP、CaCl2均能够有效缓解叶片叶绿素a、类胡萝卜素及总叶绿素含量降低,提高叶片净光合速率(Pn)、气孔导度(Gs)及气孔限制值(Ls),而对胞间CO2浓度(Ci)没有缓解作用。SNP、CaCl2及SNP+CaCl2处理提高了幼苗叶片中抗氧化酶活性和脯氨酸含量,降低了丙二醛(MDA)含量。其中共处理时效果最为显著,第4天 SOD、POD、CAT活性较PEG处理升高了39.29%、30.41%和56.24%,脯氨酸含量增加了45.59%,MDA含量降低了45.59%。POD同工酶图谱在第4天时酶谱带数最多,POD活性最强,且SNP+CaCl2共处理下出现新酶带。而添加外源NO的同时添加Ca2+通道阻断剂LaCl3,紫花苜蓿幼苗光合速率、抗氧化酶活性及脯氨酸含量均降低,丙二醛含量增加,添加Ca2+信号的同时施加NO抑制剂MB也具有相同的作用,说明Ca2+信号参与NO信号转导过程并相互作用共同调节渗透胁迫下紫花苜蓿幼苗的生理应答响应。 相似文献
32.
Effects of zinc oxide nanoparticles on the egg quality,immune response,zinc retention,and blood parameters of laying hens in the late phase of production
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M. Abedini F. Shariatmadari M. A. Karimi Torshizi H. Ahmadi 《Journal of animal physiology and animal nutrition》2018,102(3):736-745
The objective of this study was to evaluate the effects of dietary supplementation with zinc oxide nanoparticles (ZnO‐NPs) on the performance, egg quality, Zn retention, immunity responses, superoxide dismutase activity (SOD), egg malondialdehyde (MDA) content, and serum parameters in laying hens in the late phase of production. A total of 288 laying hens at 64 weeks of age were randomly assigned to 4 treatments with 6 replicates, and 12 birds within each group. Experimental diets included a corn‐soybean meal‐based diet (without Zn supplementation) and a basal diet supplemented with 80 mg/kg of Zn‐oxide, ZnO‐NPs, and Zn‐methionine. The results indicated that egg production and egg mass were significantly higher in the Zn‐methionine and ZnO‐NPs groups (p < .05). Also, eggshell thickness and shell strength increased in the ZnO‐NPs group as compared with the other groups (p < .05). Moreover, Zn supplementation decreased egg loss (p < .05). There were significant differences among treatments in Zn deposition in tibiotarsus, liver, pancreas, eggs, and excreta (p < .01). Antibody titre, heterophil (%(, and phytohemagglutinin (PHA) were significantly higher in birds fed with Zn‐supplemented diets (p < .05). In treatments supplemented with ZnO‐NPs and Zn‐methionine, the SOD activity in the liver, pancreas, and plasma was greater as compared with the other treatments (p < .05). The MDA content in eggs was significantly reduced in groups supplemented with Zn (p < .01). Moreover, dietary Zn supplementation significantly affected serum total protein, albumin, glucose, alkaline phosphatase activity, carbonic anhydrase activity, and Zn level (p < .05). In conclusion, this study demonstrated that dietary supplementation with ZnO‐NPs can improve the performance of laying hens. Therefore, ZnO‐NPs can enhance zinc absorption in the intestine of aged layers and can be a more suitable source of zinc than regular Zn‐oxide in diets. 相似文献
33.
A field experiment on permanent ryegrass–white clover pasture at AgResearch's Ruakura dairy farm near Hamilton, New Zealand quantified nitrous oxide (N2O) emissions from different types of dairy effluent applied to soil at three seasons and evaluated the potential of dicyandiamide (DCD) (a nitrification inhibitor) to decrease gaseous N2O emissions. Fresh or stored manure and farm dairy effluent (FDE; from dairy shed washings), with or without DCD (10 kg/ha), were applied at approximately 100 kg N/ha to plots on a well‐drained soil on volcanic parent material. A field chamber technique was used to measure N2O emissions. Application of manure or FDE, both in fresh and stored forms, to pasture generally increased N2O emissions. Overall N2O emission factors (EF) varied between 0.01% and 1.87%, depending on application season and effluent type. EFs in spring and autumn were greater than those in summer (P < 0.05). Among the effluents, N2O EFs were largest from fresh FDE (1.65%) during the spring measurement period, stored manure (1.87%) during the autumn and stored FDE (0.25%) during the summer. DCD was effective in decreasing N2O EFs from fresh FDE, fresh manure, stored FDE and stored manure by 40–80%, 69–76%, 24–84% and 60–70%, respectively. DCD reduced N2O emissions during the spring and autumn seasons more effectively than in the summer season. 相似文献
34.
35.
NO emissions from soils and ecosystems are of outstanding importance for atmospheric chemistry. Here we review the current knowledge on processes involved in the formation and consumption of NO in soils, the importance of NO for the physiological functioning of different organisms, and for inter- and intra-species signaling and competition, e.g. in the rooting zone between microbes and plants. We also show that prokaryotes and eukaryotes are able to produce NO by multiple pathways and that unspecific enzymo-oxidative mechanisms of NO production are likely to occur in soils. Nitric oxide production in soils is not only linked to NO production by nitrifying and denitrifying microorganisms, but also linked to extracellular enzymes from a wide range of microorganisms.Further investigations are needed to clarify molecular mechanisms of NO production and consumption, its controlling factors, and the significance of NO as a regulator for microbial, animal and plant processes. Such process understanding is required to elucidate the importance of soils as sources (and sinks) for atmospheric NO. 相似文献
36.
New strategies to enhance growth and productivity of food crops in saline soils represent important research priorities. This study has investigated the role of certain priming techniques to induce salt tolerance of bread wheat. Wheat grains were soaked in 0.2 mm sodium nitroprusside as nitric oxide donor (redox priming), diluted sea water (halopriming) and the combination of both (redox halopriming). Grains were also soaked in distilled water (hydropriming); in addition, untreated grains were taken as control. Our results indicated that priming treatments significantly improved all growth traits and increased leaf pigments concentration as compared to the control. Priming treatments markedly enhanced membrane stability index, proline, total soluble sugars and K+ concentration with simultaneous decrease in the concentration of Na+ and malondialdehyde (MDA). Furthermore, yield and yield‐related traits such as plant height, spike length, total number of tillers, 1000‐grain weight, straw and grain yield considerably affected by priming treatments. Moreover, the grain yield of both genotypes was positively affected by redox halopriming treatment. However, the extent of enhancement was more prominent in Gemmiza‐9 (salt sensitive) than that in Sakha‐93 (salt‐tolerant). Overall, this study clearly indicated that redox halopriming treatment is a promising and handy technique to induce salinity tolerance of wheat genotypes. 相似文献
37.
为解决草莓采后果实腐烂变质问题,将草莓置于甘草提取液、乳酸钙溶液、蒸馏水中浸泡1 min,取出晾干后常温贮藏,比较3组草莓失重率、腐烂率、可溶性糖、维生素C含量、超氧化物歧化酶SOD活性的变化。与对照组相比,贮藏7天后,甘草提取液组草莓失重率降低34.72%、腐烂率降低31.56%、可溶性糖含量提高99.10%、维生素C含量提高154.55%、超氧化物歧化酶SOD活性提高206.24%,乳酸钙处理和甘草提取液保鲜效果没有显著差异(P>0.05)。实验期内,2种处理方法均可提高草莓保鲜效果。 相似文献
38.
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. 相似文献
39.
Nitrous oxide emission from a transplanted rice field in alluvial soil as influenced by management of nitrogen fertiliser
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We investigated nitrous oxide (N2O) emission from an irrigated rice field over two years to evaluate the management of nitrogenous fertiliser and its effect on reducing emissions. Four forms of nitrogenous fertilisers: NPK at the recommended application rate, starch–urea matrix (SUM) + PK, neem‐coated urea + PK and urea alone (urea without coating) were used. Gas samples were collected from the field at weekly intervals with the static chamber technique. N2O emissions from different treatments ranged from 11.58 to 215.81 N2O‐N μg/m2/h, and seasonal N2O emissions from 2.83 to 3.89 kg N2O‐N/ha. Compared with other fertilisers, N2O emissions were greatest after the application of the conventional NPK fertiliser. Moreover, SUM + PK reduced total N2O emissions by 22.33% (P < 0.05) compared with NPK during the rice‐growing period (P < 0.05). The results indicate a strong correlation between N2O emissions and soil organic carbon, nitrate, ammonium, above‐ and below‐ground plant biomass and photosynthesis (P < 0.05). The application of SUM + PK in rice fields is suitable as a means of reducing N2O emissions without affecting grain production. 相似文献
40.
李洪武 《上海交通大学学报(农业科学版)》2015,(3):90-95
目的:观察持续被动运动(CPM)和补充一氧化氮(NO)供体——硝酸甘油(NG)对兔骨关节炎(OA)模型中软骨基质金属蛋白酶-1(MMP-1)和MMP-13表达以及NO含量的影响,探讨CPM下调MMPs的可能机制。方法:30只3~4月龄雄性新西兰大白兔,其中6只进行假手术作为正常对照组(NC组),另外24只建立膝关节OA模型,术后随机分为4组,即OA对照组(OA组)、OA硝酸甘油给药组(NG组)、OA持续被动运动组(CPM组)、OA持续被动运动+硝酸甘油给药组(CPM+NG组),每组各6只。NC组和OA组不作处理,NG组给予NG软膏膝关节局部涂抹,CMP组在CPM训练仪上进行膝关节持续被动运动,CMP+NG组即在运动干预的同时给予NG局部涂抹。4周后取各组软骨组织,硝酸还原酶法测定NO含量,HE染色观察软骨形态学变化并进行Mankin''s评分,实时荧光定量PCR(RQ-PCR)检测MMP-1和MMP-13 mRNA水平,免疫组织化学法测定MMP-1和MMP-13蛋白表达量。结果:NO含量、Mankin''s评分以及MMP-1和MMP-13 mRNA和蛋白水平在OA组明显高于NC组(P<0.01),NG组高于OA组(P<0.01),CPM组低于OA组和NG组(P<0.01),CPM+NG组低于NG组(P<0.01),但高于CPM组(P<0.01)。结论:CPM通过抑制软骨细胞NO合成下调MMP-1和MMP-13表达,进而对软骨细胞起保护作用。 相似文献