无人机机载激光雷达提取果树单木树冠信息

定株管理是未来果园精准生产管理的趋势，果树单木树冠信息的提取是定株管理的关键。该研究利用无人机采集的苹果园激光探测与测量数据（Light Detection and Ranging，LiDAR）检测和测量每棵果树的树冠面积和树冠直径，并评价空间分辨率对于果树单木树冠检测与提取的影响。该方法主要包括使用反距离权重插值法间接生成冠层高度模型（Canopy Height Model，CHM）；使用局部极大值滤波算法和标记控制分水岭分割算法（Marked-Controlled Watered Segmentation，MCWS）对果树进行单木树冠检测与提取，通过与参考数据的比较，评估了该方法的精度，并定量分析了空间分辨率对于单木树冠检测与信息提取结果的敏感性。结果表明，该方法有效地实现果树单木树冠检测与信息提取，代表果树检测精度的F1得分为94.86%，树冠轮廓提取准确率为86.39%，树冠面积的提取数据集和参考数据集的线性拟合结果决定系数和归一化均方根误差分别为0.81和20.56%，树冠直径的提取数据集和参考数据集的线性拟合结果决定系数和归一化均方根误差分别为0.85和14.79%，树冠面积和直径不同程度地被高估。此外，冠层高度模型的空间分辨率接近果树平均树冠直径的1/10时精度最高，可以有效检测果树单木树冠及提取树冠轮廓，从而准确提取果树单木树冠信息。     

薄膜扩散梯度（DGT）技术在环境微界面物质运移过程研究中的应用

土壤、沉积物、水体和生物体之间的接触和作用形成了多种环境微界面。这些环境微界面是物质迁移转化的重要场所,而高度时空异质性的界面特征使得对其中化学反应信息的捕捉变得极其复杂且困难。薄膜梯度扩散(DGT)技术以其原位测量元素生物有效态和高空间分辨率等优势,适用于研究化学异质性的界面过程。本文系统总结了DGT技术在环境微界面的物质运移过程研究中的应用现状,包括以下3方面内容:一是一维物质浓度测定;二是二维化学分布成像;三是与薄膜扩散平衡技术(DET)、平衡式孔隙水采样器(Peeper)和平面光极(PO)等技术联用同步获取多种溶质分布信息。现有研究证据表明,DGT适合在亚毫米(几十至几百微米)至毫米尺度研究环境微界面营养盐和污染物运移的生物地球化学过程,并可与其他化学成像技术结合研究物质跨界面运移的驱动因子和动力学特征。最后,在DGT技术发展与应用场景扩展等方面提出了几点展望。     

A systematic approach to determine the impact of elevated CO2 levels on the chemical composition of wheat (Triticum aestivum)

Two wheat genetic lines (responsive and non-responsive to elevated CO₂) grown under ambient and free-air CO₂ enrichment (FACE) conditions were compared using fuzzy chromatography mass spectrometry (FCMS) metabolite fingerprinting. A more comprehensive survey of the changes in their chemical composition was made on selected samples using ultra-high-performance liquid chromatography (UHPLC) metabolomic profiling with high resolution accurate mass/tandem mass spectrometry (HRAM/MSⁿ). Principal component analysis (PCA) of the metabolite fingerprints showed four clusters for the two genetic lines (responsive and non-responsive) and the two CO₂ levels (ambient and elevated) in score plots. Metabolite profiling of representative samples for each of the four clusters identified 25 and 16 compounds from negative and positive data, respectively, including amino acids, saccharides, phenolic acids, flavonoids, and lipids. Loading plots demonstrated that some saccharides and lipids were responsible for discriminating between not only two genetic lines but also two CO₂ levels. Analysis of free amino acids (not bound) showed a clear pattern of reduced concentration for both lines with elevated CO₂. After acid hydrolysis, the responsive line 6 (41% increase in yield) showed the same pattern observed for free amino acids, but the non-responsive line 5 (6% increase in yield) showed different trends in concentrations of amino acids with elevated CO₂.     

荒漠化程度评价高光谱遥感信息模型

本文用国产高光谱分辨率成像光谱仪系统数据对荒漠化评价建立定量化遥感信息模型。对荒漠化评价因子中的主要定量因子 (植被盖度、生物量和土壤含水率 )进行了定量反演 ;对难于进行定量计算的评价指标 ,先通过目视解译获得各因子的编码图 ,分别进行影像化后参加荒漠化程度评价遥感信息模型计算。通过每个像元都可获取全部评价因子的指标值 ,在现有的荒漠化评价方法的基础上 ,建立以像元为单位的荒漠化程度评价的定量化遥感信息模型并输出荒漠化程度分布图。结果表明 ,用高光谱数据定量反演荒漠化地区植被生物量、盖度和土壤含水率是比较可靠的。当反演区域内灌木和草地同时存在时多项式模型的精度要明显高于线性模型 ;当植被类型单一时 ,模型即为较高精度的线性模型 ,但模型的应用地域范围受到限制 ,只能分块进行计算。因此 ,在只有灌木和草地的区域用多项式模型反演会提高效率。土壤含水量的反演方法适合于地形平坦、植被比较稀疏的条件。但研究发现 ,基于土壤热惯量的含水量模型具有一定的抗植被干扰能力。荒漠化程度评价的遥感信息模型的精度主要取决于现有荒漠化评价的方法 (即评价指标是否科学合理、专家给定的权重和等级标准是否客观 )以及各指标数据的获取精度     

遥感数字图像的无缝镶嵌

在遥感图像的应用中,当研究区处于几幅图像的交界处或研究区较大需多幅图像才能覆盖时,常常需要把覆盖研究区的那些图像进行配准并把这些图像镶嵌起来,才能更好地统一处理、解译分析和研究.以航空像片为例,利用图像处理软件ERMAPPER 6.2对图像进行数字镶嵌并作无缝接边处理.结果表明:这样,大大改善了镶嵌后图像的质量,解决了手工镶嵌图像中接缝偏移、色调不均匀、地质界线延伸、影像错位等许多问题 (大幅图像尤其明显),为后期的图像处理创造良好的基础.目前出现的米级高分辨率的卫星图像同本次采用的航空像片在波段和分辨率上具有相似性,因此本研究对这些高分辨率卫星图像的镶嵌同样适用.     

Comparison of image and rapid field assessments of riparian zone condition in Australian tropical savannas

Suitable methods for measuring and monitoring the condition of riparian environments are being investigated by government agencies responsible for maintaining these environments in Australia. The objective of this work was to compare two riparian condition assessment approaches, the Tropical Rapid Appraisal of Riparian Condition (TRARC) method developed for rapid on-ground assessment of the environmental condition of savanna riparian zones and an image based riparian condition monitoring scheme. Measurements derived from these two approaches were compared and correlated. The sample representativeness of the TRARC method was evaluated and the cost-effectiveness and suitability for multi-temporal analysis of the two approaches were assessed. Two high spatial resolution multi-spectral QuickBird satellite images captured in 2004 and 2005 and coincident field data covering sections of the Daly River in the Northern Territory, Australia were used in this work. Both field and image data were processed to map indicators of riparian zone condition including percentage canopy cover, organic litter on the ground, canopy continuity, tree clearing, bank stability, and flood damage. Spectral vegetation indices, image segmentation, and supervised classification were used to produce riparian health indicator maps. QuickBird image data were used to examine if the spatial distribution of TRARC transects provided a representative sample of ground based estimates of riparian health indicators. Covering approximately 3% of the study area, the sample mean of the TRARC estimates of individual indicators of riparian zone condition were in most cases within 20% of the global mean derived from the whole imaged riparian area. The cost-effectiveness of the image based approach was compared to that of the ground based TRARC method. Results showed that the TRARC method was more cost-effective at spatial scales from 1 km to 200 km of river in relatively homogeneous riparian zones along rivers with only one channel, while image based assessment becomes more feasible at regional scales (200–2000 km of river). A change detection analysis demonstrated that image data can provide detailed information on gradual change, while the TRARC method is less suited for multi-temporal analysis due to the ranked data format, which inhibits precise detection of change. However, results from both methods were considered to complement each other for single date assessment of riparian zones if used at appropriate spatial scales.     

Conflict management and participation in community forestry

In this paper consideration is first given to how community forestry practitioners have commonly understood the term participation, and why the concept of conflict does not seem to have overlapped with notions of participation. Failure to perceive conflict as inherent in participation is shown to have led to problems in implementation of community forestry programmes. The emerging awareness of conflict today is shown to be associated with the move away from community forestry in the form of village-based tree planting schemes towards community forest management, which involves devolution of state authority over natural forests. The paper presents a number of methods for managing conflict and discusses their strong and weak points. Using the experience of the introduction of participation as a comparison, the paper considers the extent to which conflict management might be adopted as standard practice by forest agencies in community forestry. The paper concludes that because of the limited mandate of forest agencies, it is unlikely that they will be able to use conflict management tools to bring about social justice in forest conflict situations. However, the paper suggests that use of such tools could result in heightened awareness of the importance of conflict and in this way improve forest practice.This revised version was published online in November 2005 with corrections to the Cover Date.