减氮配施有机肥对滴灌春小麦花后同化物转运和籽粒灌浆特性的影响

[目的]研究减氮条件下新疆滴灌小麦高产高效的调控途径,分析滴灌春小麦花后同化物转运和籽粒灌浆特性的调控效应,为新疆滴灌春小麦的高产优质栽培提供科学依据.[方法]设置不同减氮配施有机肥处理,采用裂区设计,氮素为主区,品种为副区;于2019年在田间滴灌条件下设置7种减氮配施有机肥水平(NCK、N5、N10、N15、N20、...     

西北太平洋公海柔鱼和日本爪乌贼个体发育期营养生态位变化分析

为了更好的了解柔鱼和日本爪乌贼个体发育期营养生态位变化,根据2021-2022年“淞航”号渔业资源调查船所采集36尾柔鱼和30尾日本爪乌贼样本,对其眼睛晶体进行了碳氮稳定同位素分析。结果表明：柔鱼个体δ13C、δ15N值变化幅度分别为0.10‰-1.68‰、0.79‰-7.51‰;日本爪乌贼个体δ13C、δ15N值变化幅度分别为0.15‰-1.20‰、0.81‰-7.05‰。柔鱼、日本爪乌贼生态位面积变化范围分别为0.40‰2-5.85‰2、0.27‰2-5.36‰2。GAM模型分析显示：柔鱼眼睛晶体δ13C、δ15N与晶体直径均具有显著的相关性（P<0.01）,偏差解释率分别为31.9%和34.3%。日本爪乌贼眼睛晶体δ13C、δ15N与晶体直径均具有显著的相关性（P<0.01）,偏差解释率分别为12.9%和19.4%。分析认为,个体营养生态位的变化幅度较大,侧面反映了西北太平洋黑潮-亲潮过渡区同位素基线值变化幅度较大;该海域的柔鱼、日本爪乌贼个体摄食水平存在很大差异;个体发育和基线值是影响组织δ13C、δ15N值的因素。     

不同类型有机物料的有机磷组成及生物有效性

[目的]研究不同有机物料的有机磷组成及其作为磷源施用后的供磷能力,为化肥磷的有机替代奠定理论基础.[方法]供试有机物料包括粪肥类(猪粪、羊粪)、绿肥类(豌豆、苜蓿和绿豆)、秸秆类(小麦秸秆、玉米秸秆和油菜秸秆).分析了8种有机物料的全磷、有机磷含量和C/P值,采用Bowman-Cole方法测定了有机磷中的活性(LOP)...     

干巴菌菌丝营养生理特性的初步研究

本文报道了不同碳源、氮源、微量元素及维生素培养基对干巴菌菌丝生长的影响。试验表明,干巴菌菌丝利用最好的的碳源是葡萄糖,其次是蔗糖。利用最好的氮源是硝酸钙,其次是硝酸铵和硫酸铵,对蛋白胨和尿素的利用效果差。缺少碳源或氮源时,菌丝生长细弱、稀少,不形成原基。微量元素和维生素均对干巴菌菌丝生长有促进作用,其中以锰、铜和维生素Ｂ２的作用尤为突出。     

Isotopic fractionation during N2 fixation by four tropical legumes

To quantify the contribution of biological nitrogen fixation (BNF) to legume crops using the ¹⁵N natural abundance technique, it is necessary to determine the ¹⁵N abundance of the N derived from BNF—the B value. In this study, we used a technique to determine B whereby both legume and non-N₂-fixing reference plants were grown under the same conditions in two similar soils, one artificially labelled with ¹⁵N, and the other not. The proportion of N derived from BNF (%Ndfa) was determined from the plants grown in the ¹⁵N-labelled soil and it was assumed that the %Ndfa values of the legumes grown in the two soils were the same, hence the B value of the legumes could be calculated. The legumes used were velvet bean (Mucuna pruriens), sunnhemp (Crotalaria juncea), groundnut (Arachis hypogaea) and soybean (Glycine max) inoculated, or not, with different strains of rhizobium. The values of %Ndfa were all over 89%, and all the legumes grown in unlabelled soil showed negative δ¹⁵N values even though the plant-available N in this soil was found to be approximately +6.0‰. The B values for the shoot tissue (B_s) were calculated and ranged from approximately −1.4‰ for inoculated sunnhemp and groundnut to −2.4 and −4.5‰ for soybean inoculated with Bradyrhizobium japonicum strain CPAC 7 and Bradyrhizobium elkanii strain 29W, respectively. The B (B_wp) values for the whole plants including roots, nodules and the original seed N were still significantly different between the soybean plants inoculated with CPAC 7 (−1.33‰) and 29W (−2.25‰). In a parallel experiment conducted in monoxenic culture using the same soybean variety and Bradyrhizobium strains, the plants accumulated less N from BNF and the values were less negative, but still significantly different for soybean inoculated with the two different Bradyrhizobium strains. The results suggest that the technique utilized in this study to determine B with legume plants grown in soil in the open air, yields B values that are more appropriate for use under field conditions.     

Soluble organic nitrogen in agricultural soils

 The existence of soluble organic forms of N in rain and drainage waters has been known for many years, but these have not been generally regarded as significant pools of N in agricultural soils. We review the size and function of both soluble organic N extracted from soils (SON) and dissolved organic N present in soil solution and drainage waters (DON) in arable agricultural soils. SON is of the same order of magnitude as mineral N and of equal size in many cases; 20–30 kg SON-N ha^–1 is present in a wide range of arable agricultural soils from England. Its dynamics are affected by mineralisation, immobilisation, leaching and plant uptake in the same way as those of mineral N, but its pool size is more constant than that of mineral N. DON can be sampled from soil solution using suction cups and collected in drainage waters. Significant amounts of DON are leached, but this comprises only about one-tenth of the SON extracted from the same soil. Leached DON may take with it nutrients, chelated or complexed metals and pesticides. SON/DON is clearly an important pool in N transformations and plant uptake, but there are still many gaps in our understanding. Received: 10 June 1999     

Soil microbial biomass carbon and nitrogen as affected by cropping systems

 The impacts of crop rotations and N fertilization on microbial biomass C (C_mic) and N (N_mic) were studied in soils of two long-term field experiments initiated in 1978 at the Northeast Research Center (NERC) and in 1954 at the Clarion-Webster Research Center (CWRC), both in Iowa. Surface soil samples were taken in 1996 and 1997 from plots of corn (Zea mays L.), soybeans (Glycine max (L.) Merr.), oats (Avena sativa L.), or meadow (alfalfa) (Medicago sativa L.) that had received 0 or 180 kg N ha^–1 before corn and an annual application of 20 kg P and 56 kg K ha^–1. The C_mic and N_mic values were determined by the chloroform-fumigation-extraction method and the chloroform-fumigation-incubation method, respectively. The C_mic and N_mic values were significantly affected (P<0.05) by crop rotation and plant cover at time of sampling, but not by N fertilization. In general, the highest C_mic and N_mic contents were found in the multicropping systems (4-year rotations) taken in oats or meadow plots, and the lowest values were found in continuous corn and soybean systems. On average, C_mic made up about 1.0% of the organic C (C_org), and N_mic contributed about 2.4% of the total N (N_tot) in soils at both sites and years of sampling. The C_mic values were significantly correlated with C_org contents (r≥0.41**), whereas the relationship between C_mic and N_tot was significant (r≤0.53***) only for the samples taken in 1996 at the NERC site. The C_mic : N_mic ratios were, on average, 4.3 and 6.4 in 1996, and 7.6 and 11.4 in 1997 at the NERC and CWRC sites, respectively. Crop rotation significantly (P<0.05) affected this ratio only at the NERC site, and N fertilization showed no effect at either site. In general, multicropping systems resulted in greater C_mic : C_org (1.1%) and N_mic : N_tot (2.6%) ratios than monocropping systems (0.8% and 2.1%, respectively). Received: 9 February 1999     

Comparison of the difference method and 15N technique for studying the fate of nitrogen from plant residues in soil

We compared the dynamics of net mineralization of nitrogen (N) derived from white clover material (Ndfc) as measured by the difference and the ¹⁵N methods in a pot experiment with a sandy loam (15°C and pF 2.4) planted with Italian ryegrass. On day 22, mineralized Ndfc (soil mineral N plus plant N uptake) was 5.8% and 1.3% of added N for the ¹⁵N and the difference methods, respectively. The discrepancy was reduced on day 43. On day 64, the relationship was reversed, and on day 98 the values given by the two methods were 22.8% and 29.5%, respectively. The results obtained by the two methods were linearly correlated (r = 0.987) and, on average, did not differ significantly. Nevertheless, the different temporal patterns led to appreciably different parameter values as estimated by fitting of a reparameterized Richards model. On day 22, clover amendment reduced mineralized N derived from soil (Ndfs) by 3.4 mg N pot^–1. The reason for this was that the clover amendment led to a reduction in plant growth and uptake of Ndfs, most likely because of allelopathy, while mineral Ndfs did not increase correspondingly. Clover-induced Ndfs in the microbial biomass of 5.1 mg N pot^–1 suggested that the mineral Ndfs not taken up by plants had been reimmobilized. Towards the end of the experiment, clover-induced Ndfs in the biomass declined to 1.5 mg N pot^–1, while mineralized Ndfs due to clover amendment increased to 5.1 mg N pot^–1. The results strongly suggested that this increase was caused by a real stimulation of humus N mineralization by clover amendment rather than by isotope displacement or pool substitution. Received: 5 May 1997     

减氮对半冬性中筋小麦产量、NUE及氮代谢关键酶活性的影响

为了研究半冬性中筋小麦在减氮条件下籽粒产量、氮效率(NUE)及氮代谢关键酶活性的差异与调控效应,于2012年-2013年以半冬性中筋小麦徐麦30、保麦1号为供试品种进行池栽试验。研究表明,施用氮肥增加了穗数和粒数,扩大了小麦库容(公顷粒数),而粒重却有所下降,但穗数和粒数的增加幅度大于粒重的降低幅度,从而提高了单位面积籽粒产量。施氮量从270 kg·hm-2降至225kg·hm-2,籽粒谷丙转氨酶(GPT)活性略有提升,而单株氮素积累量、花后剑叶硝酸还原酶(NR)和谷氨酰胺合成酶(GS)、籽粒GS活性均呈下降趋势,籽粒产量有所降低,但差异未达显著水平。减氮影响了植株对氮素的吸收,对氮肥表观利用率(RE)有降低效应,但增强了氮肥偏生产力(PFP)和氮素生理效率(PE),对NHI影响较小。在兼顾生产成本、生态和效益的条件下,将氮肥用量从270 kg·hm-2减少至225 kg·hm-2,更有利于半冬性中筋小麦的可持续高效生产。本研究为小麦合理施氮及提高氮肥利用效率提供科学依据。     

紫云英与化肥配施对安徽沿江双季稻区土壤生物学特性的影响

【目的】紫云英-水稻轮作生产体系是近年来为解决大面积冬闲田而提出的水稻生产新模式。研究紫云英-水稻轮作模式下,不同量紫云英与化肥配施对稻谷增产效果及稻田土壤生物学特性的影响,为合理施用紫云英,有效改善稻田土壤微生态环境、提高土壤质量、保证水稻高产稳产提供理论支撑。【方法】以安徽省农科院土壤肥料研究所2008年设置的紫云英-稻-稻定位试验为平台,分析了5种不同施肥模式下[不施紫云英和化肥(CK)、100%化肥不施紫云英以及70%化肥分别配施紫云英7500、15000、30000 kg/hm2])稻田耕层土壤(0—20 cm)微生物量碳、微生物量氮(SMBC、SMBN)和土壤酶活性的变化,及土壤生物学特性与土壤养分的相关性,并以水稻农艺性状和产量检验了土壤生产力。【结果】1)施用紫云英绿肥能够显著提高水稻籽粒产量,增加水稻单位面积的有效穗数和水稻结实率。尤其是70%化肥配施紫云英15000 kg/hm2处理,稻谷产量达7604.53 kg/hm2,比未施肥处理和单施化肥处理分别增产228.06%和36.29%,差异达显著水平。2)与对照相比,单施化肥处理土壤微生物量碳、氮增加,脲酶、酸性磷酸酶活性提高,过氧化氢酶活性降低;70%化肥的条件下,配施紫云英处理土壤微生物量及土壤酶活性显著高于单施化肥及对照处理,且随紫云英施用量的提高而增加。整个生育期,与对照相比,施紫云英处理土壤微生物量碳、氮分别提高21.03%~142.33%、19.97%~83.91%,土壤脲酶、酸性磷酸酶、过氧化氢酶活性分别提高10.12%~100.33%、10.22%~43.23%、0.14%~7.28%。土壤微生物量及脲酶、酸性磷酸酶与土壤有机质、全氮、碱解氮呈显著或极显著正相关;过氧化氢酶与土壤养分之间无明显相关性。【结论】紫云英绿肥与化肥长期配合施用可显著提高水稻产量、土壤微生物量及土壤酶活性,改善稻田土壤的微生态环境。本试验条件下,在70%化肥施用量的前提下,紫云英施用量以15000~30000 kg/hm2的综合效果较好。故适量紫云英与化肥配施有利于提高土壤生产能力,是安徽沿江双季稻区稻田增产和培肥地力的有效途径。