不同控释氮肥运筹对粳稻养分吸收与氮素利用的影响

以绥粳18为供试材料,通过盆栽试验,在一次性施入控释氮肥免追肥条件下,设置不同施肥量(高、中、低、无)和施肥深度(5 cm、10 cm),探讨不同氮肥施用方式对粳稻养分吸收和氮素利用的影响。结果表明,在不同氮肥运筹条件下,粳稻各生育期氮、磷、钾的吸收、转运均存在明显的协同效应,施肥深度5 cm组,随着氮肥施用量的增加,粳稻的氮吸收总量增加,同时可促进磷的吸收,但影响幅度较小。钾变化与氮、磷变化有所不同。施肥深度10cm组,施高量氮肥抑制了粳稻对磷的吸收、减少了对氮的吸收,但有利于提高氮素利用率,对钾的吸收无显著影响。施用树脂包膜控释肥,纯氮用量为153 kg/hm^2、施肥深度5 cm、一次性施肥免追肥可获得最优水稻氮素利用效率并显著提高磷钾肥利用效率。     

不同释放期控释肥和水氮用量对冬小麦产量的综合影响

为揭示不同释放期控释肥及其水肥用量对冬小麦产量的影响，优化冬小麦水氮管理措施，采用裂区设计进行田间试验，以灌水量为主处理，施氮量和控释肥类型分别为副处理和次副处理，其中，灌水量设30、60和90 mm；施氮量设0、75、150和225 kg/hm2的施肥梯度；控释肥类型包括释放期分别为60、120 d的聚氨酯包膜尿素（PCU60，PCU120），以普通尿素作为对照（U）。结果表明：灌水量、施氮量、控释肥类型单一因素均对冬小麦有效穗数、千粒质量、干物质质量、籽粒产量有显著影响。各因素两两之间的交互作用对籽粒产量有显著影响。相较于U处理，增加灌水使PCU60产量平均提高308 kg/hm2，PCU120产量平均下降270 kg/hm2；增施氮肥刚好相反，使PCU60产量平均下降289 kg/hm2，PCU120产量平均提高118 kg/hm2。根据所构建3种肥料的水氮生产函数可知，在U处理取得最高理论产量6 823 kg/hm2时的水氮用量下，2种释放期的控释肥PCU120和PCU60可分别获得14.31%和12.08%的增产效果。利用水氮生产函数和频率分析法得到不同控释肥类型获得较高产量的水氮用量区间，以PCU120产量最高、所需灌水量最低，分别为7 744～7 826 kg/hm2、47.72～52.28 mm；PCU60所需施氮量最低，为145.42～187.91 kg/hm2。综合考虑增产节肥节水效果，推荐PCU120为冬小麦季适宜的控释肥类型，其适宜水氮用量区间分别为47.72～52.28 mm、159.23～199.47 kg/hm2。     

新型缓控释增效肥研究进展和发展前景

传统肥料面临着利用率低、产能过剩等问题,新型缓控释肥通过新型包膜材料或者纳米技术,实现养分释放速度的可控性;通过添加信号物质,实现植物和化肥的互动,将植物养分需求规律作为主导因素,实现肥料的按需供给,达到减少化肥用量,提高肥料利用效率的目的。从定义、研发背景、分类及发展趋势等方面介绍了新型缓控释肥的研究进展,并对其未来发展进行了展望。     

不同灌水下限设施番茄土壤CO2排放特征及其影响因素研究

【目的】探讨不同灌水下限设施土壤CO2排放特征及其影响因素,为调控设施土壤水分和碳排放提供理论依据。【方法】在番茄生育期内采用LI-8100A土壤碳通量自动测定仪观测不同灌水下限[20 kPa(D20)、30 kPa(D30)、40 kPa(D40)]下的土壤CO2排放速率,并分析其影响因素。【结果】在番茄生育期内,不同灌水下限设施土壤CO2排放速率变化趋势基本一致,D20处理最高,平均速率为2.759μmol/(m2·s),其次是D30处理,为2.601μmol/(m2·s),D40处理最低,为2.559μmol/(m2·s)。在土壤CO2累积排放量方面,D20处理显著高于其他2个处理,而D30和D40处理之间无显著差异。就单因素模型而言,不同灌水下限处理的土壤CO2排放速率与15 cm土壤温度呈指数回归关系,且均达显著水平(P<0.05);不同灌水下限处理的土壤CO2排放速率与15 cm土壤含水率均呈显著二次回归关系(P<0.05);与单因素模型相比,土壤温度和土壤含水率的双因素复合模型(68.5%~83.8%)可以更好地解释土壤CO2排放的变化。土壤温度敏感系数Q10值在1.442~1.498之间,其中D20处理最敏感,D40处理最不敏感。相关分析结果表明,土壤CO2累积排放量与0~20 cm土层土壤有机质量、pH值、全氮量、速效磷量、速效钾量、碱解氮量和微生物量碳呈显著相关关系。采用PCA分析提取出的2个主成分累积贡献率为85.79%。【结论】灌水下限影响设施土壤CO2的排放,其中D20处理促进了设施土壤CO2的排放。     

Responses to the Standard for Exchange of Nonclinical Data (SEND) in non-US countries

The Standard for the Exchange of Nonclinical Data (SEND), adopted by the US FDA, is part of a set of regulations and guidances requiring the submission of standardized electronic study data for nonclinical and clinical data submissions. SEND is the nonclinical implementation of SDTM (Study Data Tabulation Model), the standard electronic format for clinical regulatory submissions to FDA. SEND, SDTM, and the associated Controlled Terminology have been developed by CDISC (Clinical Data Interchange Standards Consortium). In order to successfully implement SEND, interdisciplinary contributions between sponsors and CROs, need a model for task allocation. This is being undertaken by the Pharmaceutical Users Software Exchange (PhUSE). Because SEND is currently the preferred submission format of the US FDA only and will become required by it starting in December 2016, only American academic societies and companies are actively involved. An exception to this is the INHAND initiative, which leads the way in standardizing terminology for toxicological pathology. On the other hand, international globalization of other clinical and nonclinical practices is not feasible because there are substantial differences between the US and non-US countries in CRO involvement in drug development. Thus, non-US countries must consider and develop approaches to SEND that meet their needs. This paper summarizes the activities of the major organizations involved in SEND development and implementation, discusses the effective use of SEND, and details a compliance scheme (research material of the Showa University School of Medicine) illustrating how pharmaceutical companies can complete a large amount of work up to an FDA application with the effective utilization of CROs and solution providers.     

不同贮藏温度和保鲜处理对黄秋葵贮藏品质及生理的影响

为探讨采后不同贮藏温度对黄秋葵贮藏品质的影响以及不同保鲜剂对黄秋葵抗氧化酶活性的影响，以台湾“五福”黄秋葵为试材，分别置于低温（（4±1）℃、（9±1）℃、（14±1）℃）和常温（（20±1）℃）条件下贮藏，研究温度对其贮藏品质的影响；采用1.0%壳聚糖、5.0 mmol/L水杨酸、0.5片安喜布、5%O2+8%CO2处理黄秋葵，研究保鲜处理对其抗氧化酶活力的影响。结果表明：（9±1）℃贮藏组的保鲜效果最好，显著改善了贮藏期间黄秋葵的失重率、硬度、叶绿素含量、VC含量、L值、呼吸强度、乙烯释放量、MDA含量、细胞膜相对电导率；4种保鲜处理均能显著提高黄秋葵的SOD、POD、CAT活性，并维持其活性在相对较高的水平；同时，显著抑制黄秋葵果实MDA含量的升高。通过研究发现，壳聚糖涂膜液处理组的效果最佳，水杨酸处理组次之并优于1-MCP处理组，气调处理组的效果相对较差。     

气调对无花果采后品质及活性氧代谢的影响

为研究气调对无花果采后品质及活性氧代谢的影响，以“波姬红”无花果为试材，在(25±0.5)℃和(72±0.5)%相对湿度的环境条件下，以空气为对照，研究4种不同比例气体成分CA1（4%O2+8%CO2）、CA2（4%O2+12%CO2）、CA3（8%O2+8%CO2）、CA4（8%O2+12%CO2）对无花果色差、硬度、咀嚼性、果胶含量、过氧化氢（H2O2）与超氧阴离子含量及过氧化氢酶（CAT）、抗坏血酸过氧化物酶（APX）和超氧化物歧化酶（SOD）活性的影响。结果表明，气调处理不同程度地延缓无花果外观色泽的变化，减缓硬度和咀嚼性的下降，较好地保持了原果胶含量，抑制了可溶性果胶含量的上升，并维持较高的CAT、APX与SOD活性，保持较低的H2O2与超氧阴离子含量。其中8%O2与12%CO2的气调处理效果最佳。     

CITES公约中云南濒危管制木材树种资源概述

根据CITES公约附录保护与管制木材种类名录，对云南处于濒危管制的木材树种资源现状进行研究。结果表明，全省被列入CITES公约的木材共有8种（类），其中附录Ⅱ有5种（类），附录Ⅲ有3种（类）。     

Synergism between potassium sorbate dips and brief exposure to high CO2 or O2 at curing temperature for the control of citrus postharvest green and blue molds

Synergistic effects and very effective control of citrus postharvest green and blue molds, caused by Penicillium digitatum and Penicillium italicum, respectively, were observed on artificially inoculated ‘Valencia’ oranges and ‘Clemenules’ and ‘Ortanique’ mandarins after a potassium sorbate (PS) treatment was followed by 2 days of storage in atmospheres of elevated CO₂ or O₂ at a curing temperature. A combined treatment consisting of 60-s dips in aqueous solutions of 3% PS heated to 62 °C was followed by 48-h exposure to air, 15 kPa CO₂ or 30 kPa O₂ at 33 °C. Control treatment was a 60-s water dip at 20 °C followed by 24-h exposure to air at 20 °C. Synergism was observed on citrus fruit either incubated at 20 °C for up to 22 days, simulating direct commercialization, or stored at 5 °C for up to 45 days, simulating commercial cold storage. This research offers potential new tools to the citrus industry for implementation of nonpolluting integrated postharvest disease management programs, especially devoted to high added value organic markets or export markets with zero residue tolerance.