不同地下水埋深土壤水分入渗规律研究

【目的】分析农田土水势的分布对作物的生长状况和农田水分循环的影响。【方法】采用观测室内层状长土柱(土柱长L=335 cm)在上边界条件为薄层积水、下边界控制不同地下水埋深时的水分入渗及蒸发过程的试验,分析了不同地下水埋深时土水势与零通量面的变化特征。【结果】入渗率随时间总的变化趋势是减小,入渗率随时间的变化一般经历3个阶段:迅速减小、缓慢减小和稳定阶段;累积入渗量随时间增加,与时间呈幂拟合关系;入渗初始阶段湿润锋运移速率较快,之后随着时间的推移,湿润锋运移速率逐渐减小,至某一时间后趋于稳定。【结论】湿润锋运移距离与时间的平方根呈线性关系     

基于多源遥感数据的河套灌区干旱时空演变特征

利用中国气象局陆面数据同化系统（CLDAS）验证了2015—2016年土壤水分主动-被动微波数据集（SMAP）在河套灌区的适用性，基于土壤水分亏缺指数（SWDI ）和干旱周百分比（PDW）分析了作物生育期内灌区农业干旱时空演变规律，通过两个参考指标检验了SWDI在河套灌区的精度。结果表明：（1）SMAP在河套灌区的适用性较好；区域尺度上，SMAP和CLDAS的相关系数为0.65；栅格尺度上，约有69%的栅格表现良好（R>0.5），且多集中在灌区西南部和东北部。（2）严重干旱主要发生在4月下旬到5月中旬、7月下旬到8月下旬以及9月中旬到10月中旬，主要集中在灌区的西南部、中部和东部；2015—2016年PDW值略有增大，干旱事件的持续时间有所延长。（3）大气水分亏缺量（AWD）表征的气象干旱在时间上显示2 a内灌区干旱月份为5—8月；空间上，除去地形原因，SWDI和AWD的相关性较为显著，且有一半格点通过了显著性水平为0.01的显著检验，表明基于SWDI对河套灌区进行干旱状况分析具有较高的可信度。     

Ridge-furrow plastic mulching with a suitable planting density enhances rainwater productivity,grain yield and economic benefit of rainfed maize

Soil surface mulching and planting density regulation are widely used for effective utilization of limited rainwater resources and improvement of crop productivity in dryland farming.However,the combined effects of mulching type and planting density on maize growth and yield have been seldom studied,especially in different hydrological years.A field experiment was conducted to evaluate the effects of mulching type and planting density on the soil temperature,growth,grain yield(GY),water use efficiency(WUE)and economic benefit of rainfed maize in the drylands of northern China during 2015-2017.Precipitation fluctuated over the three years.There were four mulching types(NM,flat cultivation with non-mulching;SM,flat cultivation with straw mulching;RP,plastic-mulched ridge plus bare furrow;RPFS,plastic-mulched ridge plus straw-mulched furrow)and three planting densities(LD,low planting density,45.0×10^3 plants/hm^2;MD,medium planting density,67.5×10^3 plants/hm^2;HD,high planting density,90.0×10^3 plants/hm^2).Results showed that soil temperature was higher with RP and lower with SM compared with NM,but no significant difference was found between RPFS and NM.More soil water was retained by soil mulching at the early growth stage,but it significantly varied at the middle and late growth stages.Maize growth was significantly improved by soil mulching.With increasing planting density,stem diameter,net photosynthetic rate and chlorophyll content tended to decline,whereas a single-peak trend in biomass yield was observed.Mulching type and planting density did not have significant effect on evapotranspiration(ET),but GY and WUE were significantly affected.There were significant interacting effects of mulching type and planting density on biomass yield,GY,ET and WUE.Compared with NM,RPFS,RP and SM increased GY by 57.5%,50.8%and 18.9%,and increased WUE by 66.6%,54.3%and 18.1%,respectively.At MD,GY increased by 41.4%and 25.2%,and WUE increased by 38.6%and 22.4%compared with those of at LD and HD.The highest maize GY(7023.2 kg/hm^2)was observed under MD+RPFS,but the value(6699.1 kg/hm^2)was insignificant under MD+RP.Similar trends were observed for WUE under MD+RP and MD+RPFS,but no significant difference was observed between these two combinations.In terms of economic benefit,net income under MD+RP was the highest with a 9.8%increase compared with that of under MD+RPFS.Therefore,we concluded that RP cultivation pattern with a suitable planting density(67.5×10^3 plants/hm^2)is promising for rainwater resources utilization and maize production in the drylands of northern China.     

森林康养步道五感体验需求与潜在游客体验意愿分析

【目的/意义】通过探索五感体验需求对潜在游客体验意愿的驱动影响,以期能够准确理解与把握潜在游客的行为意向,为森林康养步道设计提供理论参考。【方法/过程】以潜在游客为研究对象,借助AMOS构建结构方程模型,并引入“认知程度”这一调节变量进行层级回归分析。【结果/结论】结果表明:五感体验需求对潜在游客选择体验森林康养步道的意愿具有正向显著影响;在森林康养步道中,对五感体验需求影响最大的为触觉体验需求,其次为嗅觉体验需求、视觉体验需求和听觉体验需求,影响最小的是味觉体验需求;潜在游客对森林康养的认知程度对于五感体验需求与体验意愿之间的关系具有正向调节作用。     

养殖密度对硝化型生物絮团系统中凡纳滨对虾生长和水质的影响

利用硝化型生物絮团系统进行凡纳滨对虾的养殖,并通过设置不同的养殖密度探究不同养殖密度下硝化型生物絮团系统对凡纳滨对虾生长性能和水质情况的影响。实验选择同一批标粗到一定规格的健康凡纳滨对虾[体长(4.80±0.25) cm,体质量(0.98±0.16)g],分成5个密度梯度组放养到养殖池中,进行为期45 d的养殖。结果表明:80～610尾/m~3范围内,硝化型生物絮团系统对非离子氨和亚硝酸盐氮可以控制在警戒浓度(0.2 mg/L)附近波动,为凡纳滨对虾健康生长提供了良好的环境,保证养殖存活率,另外该系统下适当的排污可以避免高密度养殖下硝酸盐氮积累太快;80～610尾/m~3时存活率随密度升高而下降,但产量随密度升高而增加。     

Effects of post-silking water deficit on the leaf photosynthesis and senescence of waxy maize

Waxy maize is widely cultivated under rainfed conditions and frequently suffers water shortage during the late growth stage. In this study, a pot trial was conducted to examine the effects of post-silking drought on leaf photosynthesis and senescence and its influence on grain yield. Two waxy maize hybrids, Suyunuo 5(SYN5) and Yunuo 7(YN7), were grown under the control and drought(soil moisture content was 70–80% and 50–60%, respectively) conditions after silking in 2016 and 2017. The decrease in yield was 11.1 and 15.4% for YN7 and SYN5, respectively, owing to the decreased grain weight and number. Post-silking dry matter accumulation was reduced by 27.2% in YN7 and 26.3% in SYN5. The contribution rate of pre-silking photoassimilates transferred to grain yield was increased by 15.6% in YN7 and 10.2% in SYN5, respectively. Post-silking drought increased the malondialdehyde content, but decreased the contents of water, soluble protein, chlorophyll, and carotenoid in the leaves. The weakened activities of enzymes involved in photosynthesis(ribulose-1,5-bisphosphate carboxylase and phosphoenolpyruvate carboxylase) and antioxidant system(catalase, superoxide dismutase and peroxidase) reduced the photosynthetic rate(P_n) and accelerated leaf senescence. The correlation results indicated that reduced Pn and catalase activity and increased malondialdehyde content under drought conditions induced the decrease of post-silking photoassimilates deposition, ultimately resulted in the grain yield loss.     

国外期刊与中文期刊办刊的对比思考∗

期刊出版涉及的知识点众多，从国外期刊与中文期刊办刊对比的视角出发，通过比较各角色的分工定位，辅助期刊出版是技术运用，推广期刊的方式方法等方面总结和思考不同之处。思考国内外期刊的开放获取方式、与协会合作模式以及数据版权归属等问题作为问题延伸，指出国外期刊和中文期刊办刊的极大不同。最后指出，在初创中文学术期刊时，需要充分学习国内中文期刊的办刊经验，将国外期刊办刊的好经验融会贯通运用到中文办刊中。     

动物杂种优势利用及其预测方法

杂种优势因具有提高两个不同亲本的遗传组成杂交所产后代的生产性能、生活力和抗逆性等特点,被广泛地运用在动植物杂交育种中。杂种优势利用率越高,种畜产生的价值越高,其后代产生的额外利润就越大。因此,杂种优势的利用率是广大育种工作者所关注的一项重要内容。杂种优势利用率的评估则依赖于对种畜杂种优势大小的预测。本文主要从杂种优势利用和杂种优势预测方法2个方面对已有的研究进行综述,并探讨有关杂种优势预测准确度提高的方法,以期对相关的研究提供一定的参考和帮助。     

减氮控水对日光温室番茄-小型西瓜产量、品质及氮素利用的影响

研究日光温室滴灌施肥条件下,不同水肥组合对作物产量、品质和氮素利用的影响,综合评价优化水肥和常规水肥管理的调控效应。田间试验设置4个水氮处理,包括不施氮+常规灌溉(N_0+FI)、常规施氮+常规灌溉(FT+FI)、优化施氮+常规灌溉(OPT+FI)、优化施氮+优化灌溉(OPT+OI)。测定不同处理下秋冬茬番茄-春茬小型西瓜的产量、品质以及根、茎、叶、果实氮素吸收量。结果表明:优化水氮处理(OPT+OI)番茄产量和果实可溶性糖、可滴定酸和Vc含量与农户常规水氮处理(FT+FI)无显著差异,但番茄果实的硝酸盐含量降低了66.3%(P0.05);灌溉量相同时,减氮40%处理(OPT+FI)的小型西瓜产量相比常规施氮处理(FT+FI)提高了13.1%;OPT+OI处理果实的可溶性糖、可滴定酸和Vc含量较对照处理(N_0+FI)均显著提高。不同水肥处理下,两季作物氮在各器官的累积量均表现为果实叶茎根。随着番茄的生长,果实和茎的氮素携出量占总携出量的比例分别由62.4%和5.9%增加至67.1%和6.3%,而根和叶中氮素携出量降低,OPT+OI处理果实氮素携出所占比例增量最大,促进了营养器官中的氮素向果实中转运。在当前日光温室栽培条件下,适当优化施氮量和灌溉量既可以保证作物产量和氮素吸收,同时提高果实的品质。