Multiple Spatial Scale Analysis of the Niche Characteristics of the Rhododendron dauricum Plant Communities in Northeast China

This study aims to verify the concept of niches at multiple spatial scales in plant communities.To this end,we analyzed the niche characteristic of Rhododendron dauricum plant communities in Northeast China at three spatial scales.At the local scale,we calculated the Importance Value(IV)of species in five communities in the north of the Da Hinggan Mountains.At the intermediate scale,we examined five communities in their entirety,calculated the niche breadth of the species,and integrated niche overlap and interspecific association to analyze interspecific relationships.Further,the generalized additive model(GAM)was used to analyze the impact of topography and soil factors on niche characteristics.At the regional scale,we analyzed the geographical distribution of dominant species of R.dauricum plant communities in Northeast China and used principal component analysis(PCA)to analyze the impact of geographical and climate factors on species distribution.The results show that at the local scale,the IV of the species in each community varies widely.At the intermediate scale,species with a wide niche breadth tend to have a high value for IV.Larix gmelinii,Betula platyphylla,R.dauricum,Ledum palustre,and Vaccinium vitis-idaea had a relatively wide niche breadth and a high niche overlap,and the interspecific associations were almost all positive.Elevation and soil nutrients were the most dominant environmental factors.At the regional scale,species with a wide niche breadth tend to have a wide range of distribution,and temperature and precipitation were the most dominant environmental factors.This study suggests that the niche characteristics at three scales are both related and different.Niche characteristics at the local scale were various and labile,and niche characteristics at the intermediate and regional scales were relatively regular.These results show some degree of consistency with previous studies from an evolutionary perspective.The action mechanisms of these communities are related to differences in the dominant environmental factors.In addition,the integration of niche overlap and interspecific association determine interspecific relationships more accurately.

Effects of Vegetation Type on Surface Elevation Change in Liaohe River Delta Wetlands Facing Accelerated Sea Level Rise

Rising sea levels threaten the sustainability of coastal wetlands around the globe. The ability of coastal marshes to maintain their position in the intertidal zone depends on the accumulation of both organic and inorganic materials, and vegetation is important in these processes. To study the effects of vegetation type on surface elevation change, we measured surface accretion and elevation change from 2011 to 2016 using rod surface elevation table and feldspar marker horizon method （RSET-MH） in two Phragmites and two Suaeda marshes in the Liaohe River Delta. The Phragmites marshes exhibited higher rates of surface accretion and elevation change than the Suaeda marshes. The two Phragmites marsh sites had average surface elevation change rates at 8.78 mm/yr and 9.26 mm/yr and surface accretion rates at 17.56 mm/yr and 17.88 mm/yr, respectively. At the same time, the two Suaeda marsh sites had average surface elevation change rates at 5.77 mmJyr and 5.91 mm/yr and surface accretion rates at 13.42 mm/yr and 14.38 mm/yr, respectively. The elevation change rates in both the Phragmites marshes and the Suaeda marshes in the Liaohe River Delta could keep pace and even continue to gain elevation relative to averaged sea level rise in the Bohai Sea reported by the 2016 State Oceanic Administration, Peo- ple＇s Republic of China projection （2.4-5.5 mm/yr） in current situations. Our data suggest that vegetation is important in the accretionary processes and vegetation type could regulate the wetland surface elevation. However, the vulnerability of coastal wetlands in the Liaohe River Delta need further assessment considering the accelerated sea level rise, the high rate of subsidence, and the declining sediment delivery, especially for the Suaeda marshes.

Prediction of Suitable Habitat for Lycophytes and Ferns in Northeast China: A Case Study on Athyrium brevifrons

Suitable habitat is vital for the survival and restoration of a species.Understanding the suitable habitat range for lycophytes and ferns is prerequisite for effective species resource conservation and recovery efforts.In this study, we took Athyrium brevifrons as an example, predicted its suitable habitat using a Maxent model with 67 occurrence data and nine environmental variables in Northeast China.The area under the curve(AUC) value of independent test data, as well as the comparison with specimen county areal distribution of A.brevifrons exhibited excellent predictive performance.The type of environmental variables showed that precipitation contributed the most to the distribution prediction, followed by temperature and topography.Percentage contribution and permutation importance both indicated that precipitation of driest quarter(Bio17) was the key factor in determining the natural distribution of A.brevifrons, the reason could be proved by the fern gametophyte biology.The analysis of high habitat suitability areas also showed the habitat preference of A.brevifrons: comparatively more precipitation and less fluctuation in the driest quarter.Changbai Mountains, covering almost all the high and medium habitat suitability areas, provide the best ecological conditions for the survival of A.brevifrons, and should be considered as priority areas for protection and restoration of the wild resource.The potential habitat suitability distribution map could provide a reference for the sustainable development and utilisation of A.brevifrons resource, and Maxent modelling could be valuable for conservation management planning for lycophytes and ferns in Northeast China.

Effects of Climate Warming on Phenological Characteristics of Urban Forest in Shenyang City,China

Change in plant phenology is one of the most sensitive ecological responses to climate warming. Little information is known about the effects of climate warming on phenology of urban tree species in the northern forest of China. In this study, we investigated the phenological characteristics of the main tree species in the urban forest of Shengyang City in China and the correlation between phenology and atmospheric temperature from the discontinuous data during past 42 years over three time periods(from 1962 to 1965, 1977 to 1978, and 2000 to 2005). The results showed that the annual average temperature in Shenyang City showed an increasing trend and increased by 0.96℃ from 1962 to 2005 due to climate warming. The germination phenology of the urban trees was negatively correlated with the temperature in winter and early spring. The leafing phenology was mainly influenced by the temperature in spring before leafing. Influenced by climate warming, the germination, leafing, and flowering phenologies of this urban forest in 2005 were 14, 13, and 10 days earlier than those in 1962, respectively. We inferred that further warming in winter might prolong the growing season of urban trees in the northern forest of China.

Effects of Forest Type and Urbanization on Carbon Storage of Urban Forests in Changchun, Northeast China

Rapid urbanization has led to dramatic changes in urban forest structures and functions, and consequently affects carbon(C) storage in cities. In this study, field surveys were combined with high resolution images to investigate the variability of C storage of urban forests in Changchun, Northeast China. The main objectives of this study were to quantify the C storage of urban forests in Changchun City, Northeast China and understand the effects of forest type and urbanization on C storage of urban forests. The results showed that the mean C density and the total C storage of urban forests in Changchun were 4.41 kg/m2 and 4.74 × 108 kg, respectively. There were significant differences in C density among urban forest types. Landscape and relaxation forest(LF) had the highest C density with 5.41 kg/m2, while production and management forest(PF) had the lowest C density with 1.46 kg/m2. These differences demonstrate that urban forest type is an important factor needed to be considered when the C storage is accurately estimated. Further findings revealed significant differences in different gradients of urbanization, and the mean C density decreased from the first ring(6.99 kg/m2) to the fourth ring(2.87 kg/m2). The total C storage increased from the first ring to the third ring. These results indicate that C storage by urban forests will be significantly changed during the process of urbanization. The results can provide insights for decision-makers and urban planners to better understand the effects of forest type and urbanization on C storage of urban forests in Changchun, and make better management plans for urban forests.

Effects of Urbanization,Soil Property and Vegetation Configuration on Soil Infiltration of Urban Forest in Changchun,Northeast China

Urban forest soil infiltration, affected by various factors, is closely related with surface runoff. This paper studied the effect of urban forest types, vegetation configuration and soil properties on soil infiltration. In our study, 191 typical plots were sampled in Changchun City, China to investigate the soil infiltration characteristics of urban forest and its influencing factors. Our results showed that the steady infiltration rates of urban forest soil were highly variable. High variations in the final infiltration rates were observed for different vegetation patterns and compaction degrees. Trees with shrubs and grasses had the highest infiltration rate and trees with bare land had the lowest infiltration rate. In addition, our results showed that the soil infiltration rate decreased with an increase in the bulk density and with a reduction in the soil organic matter content and non-capillary porosity. The soil infiltration rate also had significantly positive relationships with the total porosity and saturated soil water content. Urban soil compaction contributed to low soil infiltration rates. To increase the infiltration rate and water storage volume of urban forest soil, proper techniques to minimize and mitigate soil compaction should be used. These findings can provide useful information for urban planners about how to maximize the water volume of urban forest soil and decrease urban instantaneous flooding.

Recreational Attractiveness of Urban Parks and Implications for Their Management:A Case Study in Changchun,China

Urban parks are an important part of urban ecosystems and also provide recreational services for urban residents.However,it is still unclear how the recreational attractiveness of urban parks can be evaluated.In this study,12 typical parks in Changchun,China were selected for evaluation of their recreational attractiveness.We built a recreational attractiveness evaluation system based on the analytical hierarchy process(AHP)to produce a composite evaluation index.This method included:1)the landscape quality of the parks;2)the recreational facilities;3)the conditions of the area;and 4)the accessibility of the parks.Our results showed that Nanhu Park,Children’s Park,Shengli Park,and Jingyuetan Forest Park had high recreational attractiveness,whereas Linyuan Park had the lowest attractiveness among the 12 parks.These results agreed with the information obtained from a field survey of the actual recreational and revisit rates,which showed that the evaluation index is reliable.Correlation analysis showed that the landscape quality and recreational facilities of parks had a direct effect on their recreational attractiveness.A negative correlation was found between the accessibility of a park and its recreational attractiveness.We conclude that if the scenery and facilities are not as good as a visitor expects,then they may choose to visit a different park,even if it takes a longer time to reach.

Can forest bathing in spring enhance the positive psychological response of university students: A pilot study in Northeast China

Forest bathing is well known to be beneficial of the visitors’psychological changes with better emotion and mood.Most understanding about the psychological change of university students in response to forest bathing is mainly obtained by the profile of mood states(POMS)method:a psychological rating scale to assess the transient and distinct mood states.Although some other studies explored to use a new questionnaire to assess the psychological change of university students in the urban park,more detailed information is scarce.In this study,23 university students(12 female;aged 20-23)were recruited to walk for 3.5 hours in Nanhu forest park,Changchun,China on 22 and 23 May 2018,when they were arranged to walk in an urban routine simultaneously.It was found that these students instantiated more positive emotion in the urban forest.These positive psychological changes were accompanied by improved perception about personal details and school work.In contrast,participants walking in the urban environment did not feel any psychological change.Therefore,forest bathing can be taken as an active way to stimulate more positive psychological changes compared to the urban experience.However,as a pioneer project,this study suggests more studies by designing more specific questions about social contact affairs for university students’forest bathing.

森林生态系统遥感监测技术研究进展

森林是陆地生态系统的主体,森林生态系统监测技术是实现森林可持续利用与全球变化研究的重要支撑与信息保障。从4个方面概述了遥感技术在森林生态系统监测中的应用研究进展：森林遥感分类及变化监测、森林植被参数遥感反演、森林蓄积量与生物量遥感估算、森林干扰遥感监测等。结合遥感技术的发展,总结了森林生态系统监测中使用的多源遥感数据和各类模型,提出集成地面调查数据、高分地-空雷达扫描监测技术,以及多源光学遥感建模技术和生态系统过程模型,构建多维度、多尺度、高时间密度的森林生态系统监测平台的研究展望。

内源融资、一股独大与中小创新型民营企业价值

中小创新型民营企业在科技发展中扮演极其重要角色。当前,我国企业整体杠杆率较高,而中小企业杠杆率却处于低位,表明中小创新型民营企业发展很大程度依靠内源融资。本文以新三板创新层挂牌企业为研究样本,采用工具变量法进行实证研究,并进行异质性分析,发现内源融资对中小创新型民营企业价值的影响呈现"倒U型"关系,内源融资对不同行业、债务水平和绩效水平下企业价值的影响不尽相同。进一步研究发现,具备一股独大特征的企业内源融资对企业价值的作用效果更为明显,且内源融资是一股独大程度影响企业价值的中介变量。本文发现,过高或过低的内源融资率都不利于中小创新型民营企业发展,中小创新型民营企业一股独大的股权结构具有合理性。

不忘初心,砥砺奋进,为新时代国家生态安全和东北区域农业发展贡献科技力量——中国科学院东北地理与农业生态研究所建所60周年回顾

中国科学院东北地理与农业生态研究所（简称东北地理所）是中国科学院设立在东北地区的综合性地理科学、农业科学和环境科学研究机构和人才培养基地。2018年,东北地理所迎来了60周岁的生日。60 a来,东北地理所不断凝练科学目标,调整和完善学科布局与科研组织结构,推动了相关学科发展;强化人才引进和自主培养相结合,人才队伍结构和创新能力得到极大加强;瞄准世界科学前沿,取得了一批独具特色的重大基础研究成果,一大批有重要影响的技术成果取得突破并应用于国家生态建设与东北区域农业发展;发展和完善了绩效考评体系、成果转移转化机制和协同创新机制,和谐奋进的创新文化环境正在形成。

哈尔滨城市绿地土壤肥力及其空间特征

【目的】探讨哈尔滨城市森林绿地土壤肥力及其空间分布特征,以期为基于土壤肥力特征的城市绿色基础设施建设与管理提供支撑,进而提升城市植被生态服务功能。【方法】共采集哈尔滨市区道路林、景观林、单位附属林、生态公益林及郊区农田土壤257份,并测定9种土壤肥力相关指标,通过内梅罗指数法并参照全国第二次土壤普查分级标准对土壤肥力质量进行综合评价,结合Arc GIS绘制土壤各肥力指标空间分布图。【结果】参照全国第二次土壤普查6级制标准,哈尔滨市绿地土壤有机质含量为30~40 g·kg^(-1),达到了2级(高)水平;全氮、水解性氮和有效磷含量分别为1~1.5 g·kg^(-1)、90~120 mg·kg^(-1)和<20 mg·kg^(-1),为3级(中上)水平;全钾和速效钾含量较高,为2级(高)及以上水平;全磷含量低,为0.4~0.6 g·kg^(-1),为4级(中下)水平;土壤密度为1.3~1.4g·cm-3,pH值为7.5—8.5;除速效钾外不同绿地土壤各肥力指标多表现为差异显著(P<0.05);半方差分析表明,哈尔滨城市绿地有机质及土壤密度块基比≥75%,而全磷、水解性氮、有效磷、速效钾及综合肥力指数的块基比为25%~75%。【结论】哈尔滨城市绿地全磷含量较低,钾含量较高。全磷、全氮、土壤密度及水解性氮是土壤综合肥力水平提升的主要限制因子,有机质及土壤密度空间变异主要受随机因素影响,而全磷、水解性氮、有效磷、速效钾及综合肥力指数的空间变异则受随机因素和结构因素共同影响。应采取施用氮磷复合有机肥、控制钾肥、种植固氮植物等措施改善哈尔滨城市绿地土壤。

基于层次分析法的东北地区野生草本花卉综合评价

以东北地区野生草本植物为试材,从中初选出200种观赏性较好的植物种,采用层次分析方法,结合植物自身特点,以植物观赏价值、适应性和开发价值为约束层,研究建立东北野生草本花卉综合利用价值评价体系,从200种野生花卉中筛选出了东北地区综合利用价值较高的野生草本花卉20种,以期为东北地区野生花卉的综合开发利用提供参考依据。结果表明:东北地区野生花卉开发潜力较大,白藓、山芍药、白头翁、东北天南星、玉竹等20种有较高的综合利用价值。

美国薄荷(Monarda didyma L.)对大气增温的生理生态响应

在全球气候变化背景下,大气增温会对植物造成影响已成不争事实。该研究以一种常见的草本植物——美国薄荷(Monarda didyma L.)为实验材料,利用开顶箱(OTCs)模拟法,研究了增温处理(比对照的大气温度增加3℃)下这种植物各项生理生态指标的变化规律。结果表明,(1)增温处理第7天时,薄荷叶片的净光合速率(P_n)、蒸腾速率(T_r)与对照相比分别极显著上升了43.8%和73.6%(P<0.01);处理第14天时,与对照相比,薄荷叶片的PSII电子传递量子产率(ΦPSII)和光化学猝灭系数(q_P)均显著下降了19.6%和17.1%(P<0.05),而非光化学猝灭系数(q_N)则显著上升了17.0%(P<0.05);叶绿素含量和类胡萝卜素含量在处理14d时较对照显著下降了10.0%和14.6%(P<0.05)。(2)增温处理第7天时,美国薄荷叶片的膜脂过氧化产物丙二醛含量较对照显著降低了25.2%(P<0.05);处理第14天时,与对照相比,薄荷叶片的丙二醛含量和超氧自由基产生速率分别显著升高了12.5%和15.5%(P<0.05),而可溶性蛋白含量则显著降低了19.9%(P<0.05)。因此,处理第7天时增加温度对植物表现出正效应,促进了植株叶片的光合作用和生长发育,而处理第14天时,增温生境变成了一种胁迫,对植物的生长、生理生化代谢及其药用和食用价值均可能产生不利影响。

高职数字校园数据交换平台应用探索

随着大数据时代的到来,数据的价值越来越受到人们的重视。在高职院校的信息化建设中,很多业务部门都建有自己的应用系统,这些系统没有统一的信息标准,导致出现了严重的“数据孤岛”问题,使得数据资源无法共享,因此很多高职院校在数字化校园的建设过程中都建立了数据交换平台。本文首先介绍了数据交换平台的建设目标,然后阐述了我院数字化校园建设中数据交换平台的建设成效、应用中所面临的问题及建议,最后提出了对数据交换平台在高职院校应用的展望。

臭氧摩尔分数升高对不同树龄银杏凋落叶分解和养分变化的影响

利用开顶箱(OTCs)模拟,采用尼龙网袋法开展了背景大气对照和臭氧摩尔分数升高(约80 nmol·mol^(-1))下对沈阳城市森林10年生和30年生银杏(Ginkgo biloba)凋落叶前期分解影响的研究。结果表明:与10年生银杏相比,30年生银杏凋落叶初始N、P、可溶性糖、总酚、缩合单宁质量分数显著更低(P<0.05)。与对照相比,分解结束时(150 d),O_(3)摩尔分数升高促进了10年生和30年生银杏凋落叶的分解速率,干质量残留率分别降低3.91%和4.52%(P<0.05)。在O_(3)处理下,2种树龄银杏凋落叶的C、木质素、总酚剩余率在分解结束时更低(P<0.05),能较好的解释分解速率的变化趋势。在相同处理下,30年生银杏凋落叶分解速率较10年生更快,主要与凋落物基质质量有关。O_(3)摩尔分数升高对不同树龄银杏凋落叶分解过程中养分循环产生一定影响,且随着树龄增加,银杏凋落叶分解速率加快。

Changes of main secondary metabolites in leaves of Ginkgo biloba in response to ozone fumigation

To investigate the effect of elevated 03 on the accumulation of main secondary metabolites in leaves of Ginkgo biloba L., four-year- old trees were exposed in open-top chambers with ambient air and the air with twice ambient 03 concentration in Shenyang in 2006. Elevated 03 increased the concentrations of terpenes, but decreased the concentrations of phenolics in G. biloba leaves. The results showed that secondary compounds from G. biloba leaves responded to the elevated 03 exposure in a different way when compared to previous studies which showed elevated 03 increased the concentrations of phenolics but had no effect on the terpenes in leaves of other deciduous trees. Furthermore, reduced synthesis of phenolics may decrease the resistance of G. biloba to 03 and other environmental factors. On the other hand, the induced synthesis of terpenes may enhance the antioxidant abilities in G. biloba leaves at the end of 03 fumigation.

沈阳市城区和郊区银杏春季叶物候变化差异及其成因分析

以沈阳市常见行道树及绿化树种银杏为研究对象,观测研究城区和郊区不同调查地银杏春季叶萌芽期及展叶期的物候差异及变化规律,分析银杏展叶速率与树木株高、胸径和环境因子(空气温度、湿度和臭氧浓度)之间的相关关系,以期阐明城区和郊区银杏春季展叶物候变化差异及影响的主要因素。结果表明:1)城区银杏萌芽期及展叶物候均提前于郊区,其中城区银杏展叶始期普遍比郊区提前4~8 d。2)银杏叶面积越大,单位面积叶干质量越高,萌芽及展叶物候出现越早,展叶速率越大,其中城区青年公园银杏同期叶面积最大(22.21 cm^2),展叶速率最高(0.84 cm^2·d^-1),显著高于郊区沈阳农业大学和辽宁装备学院银杏的叶面积和展叶速率(P<0.05)。3)银杏展叶速率与树木株高、胸径和空气温度呈显著正相关关系,与空气相对湿度和臭氧浓度无显著相关关系。研究发现环境温度、植物株高和胸径是影响植物春季展叶物候的主要因子。该研究结果有助于理解银杏春季展叶物候对区域气候变化的响应与适应规律。

OA系统在高职院校办公信息化建设中的探索

高职院校信息化建设的过程中,办公自动化建设是不可或缺的一部分。办公自动化(OA)Office Automation是基于计算机、互联网和现代办公手段的一种新型的办公形式。文章介绍了国内外OA系统的发展现状,提出OA系统在高职院校中的设计原则、应用优势,分析建设中存在的问题并给出相应的解决对策。

Identification of Suitable Hydrologic Response Unit Thresholds for Soil and Water Assessment Tool Streamflow Modelling

Use of a non-zero hydrologic response unit(HRU) threshold is an effective way of reducing unmanageable HRU numbers and simplifying computational cost in the Soil and Water Assessment Tool(SWAT) hydrologic modelling. However, being less representative of watershed heterogeneity and increasing the level of model output uncertainty are inevitable when minor HRU combinations are disproportionately eliminated. This study examined 20 scenarios by running the model with various HRU threshold settings to understand the mechanism of HRU threshold effects on watershed representation as well as streamflow predictions and identify the appropriate HRU thresholds. Findings show that HRU numbers decrease sharply with increasing HRU thresholds. Among different HRU threshold scenarios, the composition of land-use, soil, and slope all contribute to notable variations which are directly related to the model input parameters and consequently affect the streamflow predictions. Results indicate that saturated hydraulic conductivity, average slope of the HRU, and curve number are the three key factors affecting stream discharge when changing the HRU thresholds. It is also found that HRU thresholds have little effect on monthly model performance, while evaluation statistics for daily discharges are more sensitive than monthly results. For daily streamflow predictions, thresholds of 5%/5%/5%(land-use/soil/slope) are the optimum HRU threshold level for the watershed to allow full consideration of model accuracy and efficiency in the present work. Besides, the results provide strategies for selecting appropriate HRU thresholds based on the modelling goal.