羊肚菌营养袋制作原料的化学成分分析及配方优化

为优化羊肚菌营养袋的原料组成与配比,以食药用菌栽培基质中常用的4种秸秆及谷壳、麦粒、麦麸,通过主成分分析归纳各原料的营养组成属性,设计出9个营养袋配方进行栽培试验,比较出菇产量,得出高产营养袋原料组合为谷壳和麦粒;再以谷壳与麦粒按11种不同的重量比混合制成营养袋进行栽培试验,综合考量制作成本、出菇产量、经济效益等因素后,最终得到高产高效的羊肚菌营养袋配方(重量比)为谷壳19%、麦粒79%、石灰1%、石膏1%。     

Maize/peanut intercropping increases photosynthetic characteristics, ~(13)C-photosynthate distribution,and grain yield of summer maize

Intercropping is used widely by smallholder farmers in developing countries to increase land productivity and profitability. We conducted a maize/peanut intercropping experiment in the 2015 and 2016 growing seasons in Shandong, China. Treatments included sole maize(SM), sole peanut(SP), and an intercrop consisting of four rows of maize and six rows of peanut(IM and IP). The results showed that the intercropping system had yield advantages based on the land equivalent ratio(LER) values of 1.15 and 1.16 in the two years, respectively. Averaged over the two years, the yield of maize in the intercropping was increased by 61.05% compared to that in SM, while the pod yield of peanut was decreased by 31.80% compared to SP. Maize was the superior competitor when intercropped with peanut, and its productivity dominated the yield of the intercropping system in our study. The increased yield was due to a higher kernel number per ear(KNE). Intercropping increased the light transmission ratio(LTR) of the ear layer in the maize canopy, the active photosynthetic duration(APD), and the harvest index(HI) compared to SM. In addition, intercropping promoted the ratio of dry matter accumulation after silking and the distribution of ~(13) C-photosynthates to grain compared to SM. In conclusion, maize/peanut intercropping demonstrated the potential to improve the light condition of maize, achieving enhanced photosynthetic characteristics that improved female spike differentiation, reduced barrenness, and increased KNE. Moreover, dry matter accumulation and ~(13) C-photosynthates distribution to grain of intercropped maize were improved, and a higher grain yield was ultimately obtained.     

黄麻土工布覆盖对花岗岩红壤表土坡面侵蚀特性的影响

[目的]探究黄麻土工布覆盖条件下花岗岩红壤表土坡面侵蚀特性,为花岗岩红壤区坡面土壤侵蚀防治提供科学依据。[方法]通过室内模拟降雨试验,在2个坡度(5°和15°坡度)、3种密度(无覆盖,6 cm×6 cm及3 cm×3 cm网格)的黄麻土工布覆盖条件下,研究极端降雨条件下(90 mm/h)花岗岩红壤表土的坡面侵蚀特性,并观测径流系数、土壤侵蚀速率、泥沙颗粒变化规律及富集率等指标。[结果]坡面径流随降雨历时增加而增加,土壤侵蚀速率则相反,表明侵蚀过程是一个分离受限的过程。和对照组相比,黄麻土工布覆盖在不同试验条件下都具有明显的减流减沙作用。另外,由侵蚀泥沙的粒径分选规律可知,坡面土壤中的黏粒和粉粒大小的颗粒倾向于被优先选择性搬运,其结果致使坡面石英粗颗粒富集,在缓坡(5°)与高密度黄麻土工布覆盖条件下(3 cm×3 cm网格)尤为突出。坡面石英粗颗粒随降雨历时增加不断富集进一步增加了原位坡面的侵蚀抗性,产生了土壤侵蚀速率随降雨历时不断降低的现象。[结论]高密度黄麻土工布的覆盖能够有效地减流减沙,增加原位坡面抗蚀性,是一种有效的水土保持措施,在今后的土壤侵蚀防治和劣地恢复工作中应该被重视。     

Karanj protein isolate prepared from karanj seed cake: Effect on growth,body composition and physiometabolic responses in Labeo rohita fingerlings

A protein isolate was prepared from karanj seed (KPI) with 921.2 g protein/kg seed, which contained a negligible amount of anti‐nutritional factors and a balanced amino acid composition, especially rich in methionine. For 60‐day feeding trial, five isonitrogenous (300 g/kg CP) and isocaloric (15 MJ DE/kg) diets were formulated by replacing soybean protein isolate (SPI) on protein equivalent basis, KPI‐0 (control, 0 g/kg KPI); KPI‐25 (replacing 250 g/kg SPI protein with KPI); KPI‐50 (replacing 500 g/kg SPI protein with KPI); KPI‐75 (replacing 750 g/kg SPI protein with KPI) and KPI‐100 (replacing 1,000 g/kg SPI protein with KPI) for the feeding of L. rohita. The weight gain percentage, specific growth rate, feed conversion ratio and protein efficiency ratio were not significantly (p > .05) varied among the KPI fed and control groups. A significantly higher hepatosomatic index was recorded in the control and KPI‐25 groups compared with other groups. The whole‐body compositions, except ether extract, did not differ significantly (p > .05) among the groups. Digestive (amylase, protease, lipase and alkaline phosphatase) and metabolic enzyme activities (hexokinase, transaminases and lactate dehydrogenase) and glycogen stores were not significantly affected, whereas intestinal alkaline phosphatase differed significantly (p < .05). The RNA–DNA ratio was significantly (p < .05) higher in the KPI‐75 group. Thus, the study revealed that KPI can completely replace SPI protein at 191 g/kg inclusion level in the diets of L. rohita fingerlings.     

Biochar addition mitigates nitrogen loss induced by straw incorporation and nitrogen fertilizer application

Biochar has been shown to be potentially beneficial for enhancing yields and soil properties, and diminishing nitrogen (N) losses. However, it remains unclear how biochar regulates soil carbon (C) and N to mitigate N losses induced by straw mixing with N fertilizer in dryland soils. Therefore, we investigated the effects of straw mixing (S₁), S₁ with biochar (SB) and no straw inputs (S₀), and routine urea application rates (N₁) and 70% of routine rates (N_0.7) on yields and N losses, and identify the relationship between N losses and soil C and N compounds. Results showed that N_0.7 and N₁ were suitable for the maize and wheat seasons, respectively, contributing to mitigating N losses without reducing crop yields. Moreover, in the maize season, N_0.7-SB significantly mitigated the straw-induced NH₃-N and N₂O-N emissions by 106% and 81%, respectively. In the wheat season, N₁-SB reduced the straw-induced NH₃-N and N₂O-N emissions by 35% and 66%, respectively. In addition, N_0.7-SB sharply reduced soil inorganic N (SIN) storage in the maize season. Furthermore, the NH₃-N and N₂O-N emission rates were negatively correlated with dissolved organic carbon/SIN content (0–20 cm) (DOC/SIN_0-20). N losses (N₂O-N and NH₃-N emissions and SIN storage) were positively correlated with SIN_0-20, but negatively correlated with soil organic carbon / SIN_0-20 (SOC/ SIN_0-20). This study provides further evidence that biochar with an appropriate N application rate decreased SIN_0-20 and increased DOC/SIN_0-20, thus reducing SIN storage and the straw-induced gaseous N emissions without decreasing crop yields.     

不同钙磷配比及浓度对多花黑麦草生长特性的影响

为揭示多花黑麦草（Lolium multiflorum Lamk）对不同钙磷环境的适应机制，设置3个不同钙磷比（1∶1、2∶1、5∶1），每个钙磷比下设置两种钙磷浓度，以不添加钙和磷的营养液处理为对照，探讨不同钙磷水平下多花黑麦草形态和生理指标的变化；并利用隶属函数综合评价法来筛选适宜多花黑麦草生长的钙磷配比及浓度。结果表明：①Ca/P比为1∶1时，随Ca2+、P浓度的增加，株高、叶宽、光合色素和脯氨酸（proline, Pro）含量均呈下降趋势，丙二醛（malondialdehyde, MDA）和超氧化物歧化酶（superoxide dismutase, SOD）活性呈升高趋势；②Ca/P比为2∶1时，随Ca2+、P的增加，株高、叶宽存在一定的下降，叶绿素含量、MDA含量和SOD活性差异不显著，类胡萝卜素和Pro含量升高；③Ca/P比为5∶1时，随Ca2+、P浓度的增加，株高、叶宽、光合色素含量升高，MDA含量下降，Pro含量和SOD活性变化不明显；④P浓度相同时，随着Ca2+浓度的增加，叶绿素、类胡萝卜素含量和SOD活性呈降低趋势；⑤通过隶属函数综合评价，多花黑麦草适宜生长的Ca、P浓度分别为50和10 mg·kg-1。以上结果为多花黑麦草的栽培种植和钙磷响应机理研究提供理论依据。     

北疆盐碱地空间分布特征分析

为了探究北疆盐碱地空间分布过程中盐碱化程度与经度、纬度及海拔高度之间的关系，基于1985年土壤调查结果，结合2015年Landest 8遥感解译去除人工绿洲结果，采用2 km×2 km网格单元，以盐碱地面积占总面积的比例作为检验区域盐碱化程度的指标，对盐碱地分布情况进行统计和分析。结果表明，北疆地区盐碱化程度受地形和降水的影响明显，特别是受土壤类型的影响更为密切；北疆地区盐碱化程度，由西向东呈增大趋势（P=0838），主要集中分布在E90°～E96°范围内，盐碱土占总面积的比例为7562%；由南向北呈减小趋势（P=-0768），主要集中分布在N40°～N43°范围内，盐碱土占总面积的比例为7782%；由低到高呈减小趋势（P=-0767），主要集中分布在-160～500 m范围内，盐碱土占总面积的比例为4741%。北疆盐碱地空间分布特征的分析对于揭示北疆盐碱化程度的变化规律，促进北疆盐碱土资源的合理开发和维持地区生态安全具有重要的意义。     

浮性水产饲料膨化加工参数优化研究

为优化浮性水产饲料挤压膨化加工参数，以膨化度、容积密度、吸水性和溶失率作为饲料加工品质评价指标，采用响应面分析法研究了螺杆转速、出料段机筒温度和物料含水率对饲料加工品质的影响，并利用扫面电镜观测了饲料微观形貌。结果表明：适中的螺杆转速、出料段机筒温度以及低物料含水率，有利于形成较高的饲料膨化度；高螺杆转速与高出料段机筒温度有利于形成较低的饲料容积密度、吸水性以及溶失率；优化后的浮性水产饲料膨化加工参数为螺杆转速130 r·min^-1，出料段机筒温度150 ℃，物料含水率10%，其加工后的饲料膨化度、容积密度、吸水性和溶失率分别为1.223、0.398 g·mL^-1、214.803%、4.297%；优化后的浮性水产饲料微观表面相对光滑圆润，物料的熔融效果较好，结构质密，饲料膨化加工综合质量较好。     

咸水灌溉对基质栽培甜脆豌豆生长及营养品质的影响

【目的】探讨在水资源紧缺地区开展无土栽培咸水灌溉的可行性。【方法】采用基质盆栽试验,以甜脆豌豆为试验对象,设置0.6(淡水)、1.6、2.6、3.6、4.6 g/L共5个矿化度(深层地下淡水掺兑NaCl而成)灌水处理,研究了甜脆豌豆植株地上部和根系生长状况以及豌豆营养品质对咸水灌溉的响应。【结果】与淡水灌溉相比,灌溉水矿化度为3.6 g/L和4.6 g/L时出苗率显著(P<0.05)降低,降幅分别为12.5%和31.2%;甜脆豌豆的株高、地上部鲜/干物质量均随灌溉水矿化度的增加而显著(P<0.05)降低;在播后16 d时1.6 g/L和2.6 g/L处理的甜脆豌豆根系干物质积累未明显降低,但是在播后32d时咸水灌溉处理的根系干物质较淡水灌溉处理分别降低28.9%、40.5%、52.2%和53.1%;随灌溉水矿化度的增加,甜脆豌豆的根冠比呈增加趋势,豌豆淀粉量呈降低趋势,但2.6 g/L与0.6g/L处理间差异不显著(P≥0.05),豌豆可溶性蛋白量和可溶性糖量表现出先增加后减少的趋势,最大值均出现在2.6 g/L处理。【结论】开展基质栽培咸水灌溉甜脆豌豆是可行的,但灌溉水矿化度应≤2.6 g/L。     

无机碳源对零价铁介导的自养脱氮序批式反应器处理高氨氮废水的影响

无机碳源作为自养微生物的能量来源,是影响自养脱氮细菌富集的重要因素。文章通过添加不同量的KHCO3作为ZVI介导的自养脱氮体系中无机碳源,研究反应体系的脱氮效果影响趋势以及适宜的无机碳源添加量。结果如下:1)KHCO3作为无机碳源可以显著提高NH^+4-N去除率,KHCO3添加量越多,其NH^+4-N去除率越高。KHCO3添加量分别为2 g,1 g,0.5 g的SBR反应器R2,R1,R0.5的NH^+4-N去除率分别为98.39%,65.18%,44.56%,相较不添加KHCO3的R0分别提高86.5%,53.29%,32.67%。ZVI的添加会降低KHCO3对NH^+4-N氧化的促进作用。2)KHCO3可明显提高TIN去除效果,促进总氮脱除的高低顺序是R1>R0.5>R2,SBR反应器R2,R1,R0.5的平均TIN去除率分别为19.01%,32.04%,27.62%,相较于空白组R0分别提高了10.60%,23.63%,19.21%。3)KHCO3可中和硝化反应产生的H^+,对反应体系具有缓冲作用,可使微生物处于较适宜的酸碱环境中,更有利于反应器的稳定运行。4)适量的无机碳源KHCO3可以促进氨氧化细菌和厌氧氨氧化细菌的活性。该研究探讨了无机碳源在零价铁脱氮体系中的影响趋势,为铁型脱氮技术提供了理论支撑。