食用蕈菌天然食品防腐剂发酵工艺的研究

将从食用蕈菌筛选出来的天然食品防腐剂生产菌Ｅ．Ｆ．１５和Ｅ．Ｆ．４２分别进行深层发酵,用既定筛选模型系统的跟踪模型逐一测试其发酵产物的抑菌效价。梯度试验结果表明,Ｅ．Ｆ．１５和Ｅ．Ｆ．４２的最适发酵周期,最适发酵温度,发酵液最适起始ｐＨ,摇床最适转速,发酵液最适装量和最适接种量（ｖ／ｖ）,分别为６ｄ,２５～３０℃,７．０～７．５,１５０ｒ／ｍｉｎ,２００ｍＬ（５００ｍＬ三角瓶）和１５％。     

Asymmetric warming effects on N dynamics and productivity in rice (Oryza sativa L.)

Climate warming exhibits strong diurnal variations, with higher warming rates being observed at nighttime, which significantly affects rice (Oryza sativa L.) growth and grain yield. The objective of this study was to determine the effects of asymmetric warming (all-day warming, AW; daytime warming from 07:00 to 19:00, DW; nighttime warming from 19:00 to 07:00, NW, and a control, CK) on rice nitrogen (N) dynamics and productivity. Two rice bucket warming experiments were performed in Nanjing in Jiangsu Province, China, using the free air temperature increase (FATI) technique. The daily mean temperatures in the rice canopy in the AW, DW and NW plots were 2.0, 1.1 and 1.3ºC higher than those in the rice canopy in the CK plots, respectively. The results indicated that the total N accumulation of rice was 8.27–40.53% higher in the warming treatment than in the control during the jointing, anthesis and maturity stages. However, there was no significant difference detected among the three warming treatments. The warming treatment substantially decreased N translocation efficiency, leading to the retention of more N in the plant stems during grain filling. The warming treatment also decreased the N harvest index, N utilization efficiency based on grain yield and N utilization efficiencies based on biomass in both growing seasons. The warming treatment significantly increased the aboveground biomass (9.26–16.18%) in the jointing stage but decreased it (2.75–9.63%) in the maturity stage. Although DW increased the carbon (C) gain by photosynthesis and NW increased the C loss by night respiration, the daytime higher-temperature treatment affected rice photosynthesis and reduced its photosynthetic rate and product. This effect may be one of the primary reasons for the insignificant difference in the aboveground biomass between the DW and NW treatments. In the AW, DW and NW plots, the grain yield was reduced by an average of 10.07, 5.05 and 7.89%, respectively, across both years. The effective panicles and grains per spike tended to decrease in the warmed plots, whereas irregular changes in the 1000-grain weight were observed. Our results suggest that under the anticipated climate warming, rice productivity would further decline in the Yangtze River Basin.     

利用ECMWF再分析数据验证PRECIS对中国区域气候的模拟能力

本文利用1979～1983年的ECMWF再分析数据作为准观测侧边界条件驱动Hadley气候预测和研究中心的区域气候模式系统PRECIS，验证PRECIS对中国区域的气候模拟能力。选择典型的观测站点北京模拟的日最高，最低气温、太阳短波总辐射和月均降水量与观测结果进行直接比较，显示：PRECIS具有很强的模拟地面气候季节变化的能力。全国740个台站的观测与模拟值的统计分析表明：尽管模拟的最高，最低气温在0℃附近有一‘锯齿’状的偏差，PRECIS能够很好地模拟全国范围最高，最低气温的型态分布特征；从全国范围看，模拟的降水值偏高，但显示出很强的模拟极端降水事件的能力；模拟的地面太阳短波总辐射与全国122个台站的观测结果的比较显示：PRECIS模拟的辐射值偏高，全国范围内约高22％。因此，当应用PRECIS输出结果进行气候变化的影响评价时，需要对模式的输出结果进行订正。     

Biological activity and organic matter mineralization of soils amended with biowaste composts

This study aims to elucidate the significance of compost and soil characteristics for the biological activity of compost‐amended soils. Two agricultural soils (Ap horizon, loamy arable Orthic Luvisol and Ah horizon, sandy meadow Dystric Cambisol) and a humus‐free sandy mineral substrate were amended with two biowaste composts of different maturity in a controlled microcosm system for 18 months at 5 °C and 14 °C, respectively. Compost application increased the organic matter mineralization, the C_mic : C_org ratio, and the metabolic quotients significantly in all treatments. The total amount of C_org mineralized ranged from < 1 % (control plots) to 20 % (compost amended Dystric Cambisol). Incubation at 14 °C resulted in 2.7‐ to 4‐fold higher cumulative C_org mineralization compared to 5 °C. The C_mic : C_org ratios of the compost‐amended plots declined rapidly during the first 6 months and reached a similar range as the control plots at the end of the experiment. This effect may identify the compost‐derived microbial biomass as an easily degradable C source. Decreasing mineralization rates and metabolic quotients indicated a shift from a compost‐derived to a soil‐adapted microbial community. The C_org mineralization of the compost amended soils was mainly regulated by the compost maturity and the soil texture (higher activity in the sandy textured soils). The pattern of biological activity in the compost‐amended mineral substrate did not differ markedly from that of the compost‐amended agricultural soils, showing that the turnover of compost‐derived organic matter dominated the overall decay process in each soil. However, a priming effect occurring for the Dystric Cambisol indicated, that the effect of compost application may be soil specific.     

组培微环境热平衡过程的实验研究

温度对组培苗的生长发育具有重要的作用，提高光合光量子通量密度会引起微环境温度强烈变化。为探讨光合光量子通量密度对组培微环境温度的影响，测定了不同光合光量子通量密度下，组培环境中各主要测点温度的历时变化值，分析了组培微环境温度变化的影响因素和热平衡过程，建立了组培微环境的热平衡模式。实验结果表明增高光合光量子通量密度所导致的微环境温升高于经验估测值，必须采取措施降低微环境温度，进一步的分析指出调控组培箱内气温和支承板温度是降低组培微环境温度的有效措施。     

ROOT ZONE TEMPERATURE INFLUENCES ZINC REQUIREMENT OF MAIZE CULTIVARS ON A CALCAREOUS LOAM SOIL

The zinc (Zn) requirement of a maize (Zea mays L.) hybrid (‘FHY-396’) and an indigenous variety (‘EV-7004’) was measured at low (22.4 ± 5°C) and high (28.8 ± 5°C) root-zone temperatures (RZT). Four Zn rates (0, 3, 9 and 27 mg kg^?1 soil) were applied to a calcareous loam soil in pots for the glasshouse study. Shoot and root dry matter yields were significantly more at the higher RZT. Regardless the RZT, maximum relative shoot dry matter yield in hybrid and variety was produced, respectively, at 9 and 3 mg Zn kg^?1 soil. Zinc concentration in roots and shoots of both the cultivars increased with Zn rates and it was significantly more at the higher RZT. Cultivars differed in critical Zn concentration (C_ZnC) required for maximum shoot dry matter yield. The C_ZnC ranged from 25 to 39 μg Zn g^?1 plant tissue for optimum growth of both the cultivars at low and high RZT.     

西藏地区不同牧草体外发酵特性研究

本文旨在利用体外产气法评定西藏地区不同牧草营养价值。选取西藏地区5种常见牧草,通过单因素试验设计,利用体外产气法评定5种牧草体外发酵48 h累积产气量、理论最大产气量(V_f)、初始产气速率(FRD_0)、达到最大产气量一半时所需时间(t_(0.5))、体外干物质消失率(IVDMD)、体外中性洗涤纤维消失率(IVNDFD)、p H、氨态氮(NH_3-N)浓度以及挥发性脂肪酸(VFA)产量。结果表明,体外发酵48 h后,苇状羊茅体外48 h累积产气量、V_f、FRD_0、IVDMD及甲烷(CH_4)、乙酸、丙酸、丁酸和总VFA产量均显著高于其他4种牧草(P0.05),但其体外发酵p H及乙酸/丙酸显著低于其他4种牧草(P0.05);紫花苜蓿体外NH_3-N浓度最高,显著高于其他4种牧草(P0.05)。综上分析,苇状羊茅体外发酵效果最佳,与其他试验牧草相比,更容易被瘤胃微生物降解利用。     

日光温室内置式太阳能集热调温装置试验研究

为了提高冬季日光温室内的温度,研究开发了贮蓄太阳热能用于夜间温室内加温的太阳能集热调温试验装置.该装置垂直固定在日光温室内靠近北墙的钢筋拱架上,利用冬季晴天时北墙部位的太阳辐射热量使水增温,并把水储存在蓄热水箱内;夜间温室内温度降到一定程度时,利用所贮蓄的热量再给温室加温.试验结果表明:该装置白昼贮热与夜间加温效果明显,白昼集热可使水温提高20℃以上,夜间用蓄积的热量加温,可以使室内气温平均提高约1.7℃以上.     

白腐真菌发酵罐液态发酵产漆酶条件的优化

通过在发酵罐中液体发酵产漆酶,在发酵罐中筛选黄孢原毛平革菌液体发酵产漆酶的最佳条件.试验选取已优化的白腐真菌液态发酵培养基进行培养,在发酵罐中进行单因素和多因素正交试验,对其在发酵罐中发酵产酶条件进行优化.选取的白腐真菌黄孢子原毛平革菌的最佳发酵生产条件为:温度28℃、转速300r/min、通气量5L/min(通气比1.0vvm)、pH值5、接种量为15%.在此条件下最高产酶水平可达14.86U/mL.     

日光温室空气对流蓄热中空墙体热性能试验

空气对流循环蓄热墙体是一种通体中空型日光温室墙体,其内部中空层与温室空间连通而具有空气对流换热效果。为详细了解该墙体构造的蓄放热特性及其对日光温室热环境的影响,通过与同样构造但中空层封闭的无对流墙体的对比,在北京市通州区试验温室中测试了墙体内部温度分布及变化规律、墙体蓄放热量及其对温室内气温的影响。其结果,与对照墙体相比,对流方式下墙体内部温度分布规律不同,墙体内部整体温度水平较高、且昼夜波动幅度较大,墙体白天蓄热量提高15.1%,夜晚放热量提高14.7%,这一效果使得温室夜间最低温度提高2.2℃,有效提高了墙体的蓄放热能力,改善了温室夜间温度水平。