三江源区高寒草原土壤湿度变化特征及与气候因子的关系

利用青海省三江源区兴海县牧业气象站1999-2016年高寒草原土壤湿度、牧草生育期资料,分析了高寒草原土壤湿度的年、季变化特征以及牧草生长季不同生育期土壤湿度的变化特征及与气候因子的关系。结果表明:高寒草原0-10、10-20、20-30、30-40和40-50 cm土壤湿度均随年际延长呈增加趋势,春季除40-50 cm土层外,其他各层土壤湿度均随年际延长呈显著增加趋势(P<0.05)。高寒草原牧草生长季的土壤相对湿度随年际延长呈显著上升趋势(P<0.05),且与生长季降水量之间呈极显著正相关关系(P<0.01)。随着气候变化,牧草抽穗、开花、成熟和枯黄期的土壤相对湿度随年际延长呈显著增加趋势(P<0.05)。牧草抽穗期、枯黄和全生育期的土壤湿度与气温呈显著负相关关系(P<0.05)。高寒草原牧草生长季土壤湿度的增加有利于草地植被生长。     

Spatio-temporal factors influencing the occurrence of Syngamus trachea within release pens in the South West of England

Syngamus trachea is a pathogenic tracheal nematode that causes syngamiasis in wild and game birds, especially when birds are managed at high densities. Despite its pathogenic nature, very little is known about its epidemiology and relationship with ambient temperature and humidity. The spatial and temporal modelling of disease was undertaken on two pheasant estates within the South West of England from April 2014 to August 2014. Significant differences between the mean numbers of eggs per gram of soil were identified between pens at both site 1 and site 2 but did not differ significantly between sites. Egg abundance was significantly associated with soil moisture content, with greater egg survival between years in pens with higher average volumetric soil moisture content. Previous years stocking density and pen age were also associated with greater egg survival between years with more eggs being recovered in pens with greater stocking densities, and pens that had been sited longer. The greatest model to explain the variation in the numbers of eggs per gram of soil per pen was a combination of soil moisture content, stocking density and pen age.Larval recovery differed significantly between sites. Larval abundance was significantly and positively associated with temperature and relative humidity at site 1. Similarly, temperature and humidity were also positively and significantly associated with larval abundance at site 2. Rainfall did not influence larval recovery at either site 1 or site 2. The model with the greatest ability to explain larval abundance at both sites, was a combination of temperature, humidity and rainfall. Infection status (positive faecal egg counts) was significantly and positively associated with larval abundance at both sites, but rainfall was only positively associated at site 1. Temperature and humidity were positively associated with infection status at site 2, but not at site 1. The present study highlights the influence of climatic variables on both egg survival and larval abundance, and could therefore be used to develop more targeted treatment strategies around periods of higher disease risk. The frequent use of release pens is a clear factor in the epidemiology of syngamiasis, and it is recommended that pens be rested and/or rotated in order to reduce infection pressure in subsequent flocks.     

采后减压预处理对番木瓜果实贮藏品质及抗氧化活性的影响

以"日升"品种番木瓜果实为材料,研究了不同梯度的减压预处理(0 MPa(常压),0.025、0.050、0.075 MPa)对15℃贮藏条件下番木瓜果实品质变化和抗氧化活性的影响。结果表明:减压处理能显著延缓番木瓜果实硬度下降,延缓可溶性固形物(TSS)、抗坏血酸(VC)、类黄酮及总酚含量的变化,维持较高的超氧化物歧化酶(SOD)活性和抑制丙二醛的积累,有利于番木瓜果实贮藏品质和抗氧化能力的保持,而且以0.050 MPa处理的保鲜效果最为显著。     

促进玉米子粒脱水的农艺措施研究进展

作为我国玉米的主要产品类型,子粒用玉米收获时含水率是决定玉米子粒机械化直收质量、储藏安全和经济效益的关键因素,收获期子粒含水率高已经成为制约我国机械化粒收技术大面积推广应用、影响玉米及其制品质量与安全生产、限制玉米产业提质增效发展的重要经济与技术问题。对国内外促进玉米子粒脱水的农艺措施相关研究进行总结与分析,认为未来玉米全程机械化生产过程中,在选用适宜子粒机械化直收优良品种的前提下,应结合各区域不同熟期品种的精细化布局,通过不断改进种植模式、优化养分和水分精准运筹方式,创新适时冠层结构调控措施,研发高效促脱水化学调控产品等关键栽培技术途径,建立生育后期子粒灌浆和脱水动力学协同关系,营造通透群体微区环境,加速子粒水分散失;收获时间调节方面,除了依据不同品种生理成熟前后的子粒脱水动力学进程、种植规模、市场供需格局和农机调度管理等因素外,还应充分考虑田间倒伏、落穗、穗腐、虫害及野生动物破坏导致的产量损失;此外,应加强与关键技术措施相配套的轻简化农机装备的有效研制,将农艺农机深度融合,进一步推动玉米子粒机械化直收技术应用,促进我国玉米及其制品质量与安全,提升玉米生产竞争力,实现玉米产业可持续发展。     

大型综合医院户外空间植物景观研究

为营造良好的医院户外空间,采用文献查阅和综合分析等方法对广州市3家大型综合医院的绿地植物景观进行研究。结果表明:3家医院共有植物116种,其中骨干树种和基调树种的重复率较高,乔灌比值偏小,常绿与落叶比相对合理,色彩应用设计合理。在交往空间的搭配中,广东省中医院的交往空间最丰富,广东省人民医院私密型空间较少,中山大学第一附属医院对病人户外交往空间考虑不够,空间应用的元素较为单一。     

Can soil moisture deficit be used to forecast when soils are at high risk of damage owing to grazing animals?

A potentially significant cause of damage to grassland soils is compaction of unsaturated soil and poaching of saturated or nearly saturated soil by animal hooves. Damage is caused when an applied stress is in excess of the bearing strength of the soil and results in a loss of soil structure, macroporosity and air or water conductivity. Severely damaged soils can cause reduced grassland productivity and make grazing management very difficult for the farmer. The actual amount of soil damage that can occur during grazing is dependent on the grass cover which acts as a protecting layer, the soil water content and the characteristics of the grazing animal (weight and hoof size). Assuming that the farmer is knowledgeable about the characteristics of the grazing animal and grass cover, it would be very useful for short‐term operational farm planning to be able to predict when soil water contents were likely to be in a critical range with respect to potential hoof damage. In this study soil moisture deficits (SMDs) which can be derived from meteorological forecasts are evaluated for predicting when soil water conditions are likely to lead to hoof damage. Two contrasting Irish grassland soils were analysed using a Hounsfield servo‐mechanical vertical testing machine to simulate static (285.4 N) and dynamic (571 N) hoof loads on the soil over a range of estimated SMDs (0, 5, 10 and 20 mm). The deficits were analysed with respect to the soil volumetric water content, compression (displacement) and change in dry bulk density. The SMDs imposed in the laboratory were similar to those under field conditions and thus the methods used in this study are applicable elsewhere. The change in dry bulk density following loading (0.2–0.7 g/cm³) was linearly related to SMD (R² ranged from 0.90 to 0.99), leading to the conclusion that a forecast of SMD can be used to predict when grassland soils are likely to be at risk of damage from grazing.     

不同优质粳稻花药对低温和激素处理的培养响应

以3份优质粳稻品种为供试材料,研究了3种低温预处理和9个激素处理组合对离体花药培养的影响。结果表明:供试材料花药对低温预处理的响应存在明显差异,对激素处理组合的响应也存在一定差异。     

南方地区高水分玉米安全度夏技术探讨

根据水分的高低,对新收购的高水分玉米分别储存在露天囤和高大平房仓中,将露天囤里的玉米通风降水后转入高大平房仓储存,再对玉米通风降温,并采取仓房密封、悬挂防晒网、空调控温等配套措施控制粮温,期间采取磷化铝多次补药熏蒸杀灭粮堆内害虫及霉菌,使玉米安全度夏。     

水产养殖尾水初沉区中净化材料的应用对微生物酶活性的影响

通过检测除氮型改性凹凸棒土（Al@TCAP-N）和火山石的内部及周围水体有关氮、磷、有机物分解的酶活性和水质指标，利用高通量测序对材料和水体中的细菌和真菌进行分析，以研究尾水处理系统初沉区中水质净化材料处理尾水营养盐的机制。结果表明，Al@TCAP-N和火山石能增加其周围水体微生物碱性磷酸酶（AKP）、硝酸盐还原酶（Nar）活性；火山石能在早期（0~6 h）提高其内部有机磷水解酶（OPH）、氨单加氧酶（AMO）的活性；Al@TCAP-N能在后期（36~48 h）增加其内部脱氢酶（DHO）的活性；净化材料相互对比发现，火山石内部的酶活性整体高于Al@TCAP-N内部的酶活性；本试验表明水质处理最佳时间为36 h，总氮（TN）、总磷（TP）、高锰酸盐指数（COD_Mn）的去除率分别为22.61%、9.52%和22.16%。在实际应用过程中，可通过Al@TCAP-N的吸附和火山石负载的微生物的双重作用降低水中营养盐的含量。浮霉菌门（Planctomycetes）、变形菌门（Protepbacteria）、拟杆菌门（Bacteroidetes）和壶菌门（Chytridiomycota）分别是材料表面微生物细菌和真菌中的主要门类。火山石能在净化初期促进有机磷化合物分解和硝态氮（NO₃^--N）转化为亚硝态氮（NO₂^--N），Al@TCAP-N在净化后期促进有机物的分解。Al@TCAP-N和火山石能促进水体中含磷化合物的分解和氮的转化。     

La和Fe改性木芙蓉和龙牙花树枝粉对畜禽废水中磷的吸附

畜禽养殖废水中过量的磷排放易导致水体富营养化。为有效去除畜禽废水中的磷和对园林废弃物进行资源化利用,本研究探讨La和Fe分别改性木芙蓉树枝粉(HM)和龙牙花树枝粉(EC)得到的4种材料(La-HM、La-EC、Fe-HM和Fe-EC)在不同投加量、溶液pH、吸附时间和初始磷浓度等条件下对模拟废水中磷吸附的影响。结果表明,4种改性材料对模拟废水中磷的单位吸附量随投加量的增加呈指数或幂函数下降(P0.05);随溶液pH的升高,La改性的两种材料对磷的吸附量呈先上升后下降趋势,Fe改性的两种材料则相应呈幂函数下降(P0.05)。它们的吸附动力学过程符合准二级动力学模型,吸附等温线更适合用Freundlich模型拟合。4种改性材料对模拟废水中磷的理论最大吸附量分别为15.00、12.02、7.18 mg·g~(-1)和8.43 mg·g~(-1),对实际养猪废水中磷的吸附量为11.63～21.71 mg·g~(-1),是未改性前的1.58～3.23倍。因此,La和Fe改性木芙蓉和龙牙花树枝粉是吸附畜禽废水中磷的潜在材料。