Simulation of leaf area index and biomass at landscape scale

The method for simulating the temporal and spatial distribution patterns of leaf area index (LAI) and biomass at landscape scale using remote sensing images and surface data was discussed in this paper. The procedure was: (1) annual maximum normalized difference vegetation index (NDVI) over the landscape was calculated from TM images; (2) the relationship model between NDVI and LAI was built and annual maximum LAI over the landscape was simulated; (3) the relationship models between LAI and biomass were built and annual branch, stem, root and maximum leaf biomass over the landscape were simulated; (4) spatial distribution patterns of leaf biomass and LAI in different periods all the year round were obtained. The simulation was based on spatial analysis module GRID in ArcInfo software. The method is also a kind of scaling method from patch scale to landscape scale. A case study of Changbai Mountain Nature Reserve was dissertated. Analysis and primary validation were carried out to the simulated LAI and biomass for the major vegetation types in the Changbai Mountain in 1995.

The Influence of Time Scale on the Quantitative Study of Soil and Water Conservation Effect of Grassland

Quantitative analysis of time scale effects is conducive to further understanding of vegetation water and soil conservation mechanism.Based on the observation data of the grass covered and bare soil( control) experimental plots located in Hetian Town,Changting County of Fujian Province from 2007 to 2010,the characteristics of 4 parameters( precipitation,vegetation,RE and SE) were analyzed at precipitation event,month,season,and annual scales,and then the linear regression models were established to describe the relationships between RE( SE)and its influencing factors of precipitation and vegetation. RE( SE) means the ratio of runoff depth( soil loss) of grass covered plot to that of the control plot. Results show that these 4 parameters presented different magnitude and variation on different time scales. RE and SE were relatively stable either within or among different time scales due to their ratios reducing the influence of other factors. The coupling of precipitation and vegetation led to better water conservation effect at lower RE( < 0. 3) at precipitation event scale as well as at season scale,while the water conservation effect was dominated by precipitation at slightly higher( 0. 3- 0. 4) and higher( > 0. 7) REs at precipitation event scale as well as at annual scale( R2> 0. 78). For the soil conservation effect,precipitation or / and vegetation was / were the dominated influence factor( s) at precipitation event and annual scales,and the grass LAI could basically describe the positive conservation effect( SE <1,R2> 0. 55),while the maximum 30 min intensity( I30) could describe the negative conservation effect more accurately( SE >1,R2> 0. 79). More uncertainties( R2≈0. 4) exist in the models of both RE and SE at two moderate time scales( month and season). Consequently,factors influencing water and soil conservation effect of grass present different variation and coupling characteristics on different time scales,indicating the importance of time scale at the study on water and soil conservation.

The scaling relationship of leaf area and total mass of sample plots across world trees

The scaling relationship between leaf area and total mass of plant has important implications for understanding resource allocations in the plant.The model of West,Brown and Enquist(WBE model)considers that a 3/4 scaling exponent of metabolic rate versus total mass to be optimal for each plant and has been confirmed numerous times.Although leaf area is a better proxy of the metabolic rate than leaf mass,few studies have focused on the scaling exponent of leaf area versus total mass and even fewer have discussed the diversification of this scaling exponent across different conditions.Here,I analyzed the scaling exponent of leaf area versus total mass of sample plots across world plants.I found that as the plant grows,it allocates fewer resources to photosynthetic tissues than expected by the WBE model.The results also empirically show that this scaling exponent varies significantly for different plant leaf habit,taxonomic class and geographic region.Therefore,leaf strategy in response to environmental pressure and constraint clearly plays a significant role.

基于5-scale模型人工针叶林叶面积指数反演

以内蒙古赤峰市旺业甸实验林场人工针叶林为研究对象,以哨兵2A(Sentinel-2A)多光谱遥感影像和外业测量的叶面积指数为数据基础,反演人工林叶面积指数。通过5-scale模型和Liberty模型耦合得到不同输入参数与冠层反射率相对应的查找表,利用编程读取查找表与遥感影像,通过对比遥感影像中红光波段和近红外波段反射率,与查找表中红光波段和近红外波段的反射率最接近的值所对应的叶面积指数值,进而实现叶面积指数反演。结果表明:基于5-scale模型反演的叶面积指数,R2=0.8222,RMSE=0.9414,其精度要高于一元线性模型的精度,利用5-scale模型反演人工针叶林叶面积指数是可行的。

基于CycleGAN-IA方法和M-ConvNext网络的苹果叶片病害图像识别

针对苹果叶片病害图像识别存在数据集获取困难、样本不足、识别准确率低等问题,提出基于多尺度特征提取的病害识别网络(Multi-scale feature extraction ConvNext,M-ConvNext)模型。采用一种结合改进的循环一致性生成对抗网络与仿射变换的数据增强方法(Improved CycleGAN and affine transformation,CycleGAN-IA),首先,使用较小感受野的卷积核和残差注意力模块优化CycleGAN网络结构,使用二值交叉熵损失函数代替CycleGAN网络的均方差损失函数,以此生成高质量样本图像,提高样本特征复杂度;然后,对生成图像进行仿射变换,提高数据样本的空间复杂度,该方法解决了数据样本不足的问题,用于辅助后续的病害识别模型。其次,构建M-ConvNext网络,该网络设计G-RFB模块获取并融合各个尺度的特征信息,GELU激活函数增强网络的特征表达能力,提高苹果叶片病害图像识别准确率。最后,实验结果表明,CycleGAN-IA数据增强方法可以对数据集起到良好的扩充作用,在常用网络上验证,增强后的数据集可以有效提高苹果叶片病害图像识别准确率;通过消融实验可得,M-ConvNex识别准确率可达99.18%,较原ConvNext网络准确率提高0.41个百分点,较ResNet50、MobileNetV3和EfficientNetV2网络分别提高3.78、7.35、4.07个百分点,为后续农作物病害识别提供了新思路。

基于YOLOv5的复杂背景下植物叶片检测研究

对植物叶片进行检测是研究植物表型性状的基础,但真实环境下叶片间相互遮挡、叶片边缘特征不明显、幼叶目标过小以及外部环境如光照条件等因素影响会对叶片检测效果造成很大的障碍。针对复杂背景下的叶片检测,该研究提出了一种基于改进YOLOv5模型植物叶片检测方法。通过在骨干网络中引入空洞卷积,使得网络可以捕获到更广阔范围的上下文信息;利用双向连接的加权特征金字塔网络,以增强目标叶片特征提取并更好地融合特征信息;利用注意力机制,通过动态地调整注意力分布,以提高边缘特征表达能力。测试结果表明,在Plant Village数据集筛选的葡萄叶片图像以及自拍摄葡萄生长叶片上测试改进算法的可行性,改进的YOLOv5模型其叶片检测mAP比原生模型提高了5.8%,遮挡叶片检测精度提高了7.09%。叶片检测效果有显著提升。该研究提出的方法可以有效解决复杂背景下植物叶片检测效果不佳的问题,为植物表型研究提供技术支撑。

Early Season Development of Micro/Nano-Morphology and Superhydrophobic Wetting Properties on Aspen Leaf Surfaces

The rapid growth and early development period of the dual-scale surface topography was studied on the adaxial leaf surfaces of two aspen tree species with non-wetting leaves: the columnar European aspen (Populus tremula “Erecta”) and quaking aspen (Populus tremuloides). Particular attention was focused on the formation of micro- and nano-scale asperities on their cuticles, which was correlated with the development of superhydrophobic wetting behaviour. Measurements of the wetting properties (contact angle and tilt-angle) provided an indication of the degree of hydrophobicity of their cuticles. Scanning electron microscopy and optical profilometry micrographs were used to follow the growth and major morphological changes of micro-scale papillae and nano-scale epicuticular wax (ECW) crystals, which led to a significant improvement in non-wetting behaviour. Both species exhibited syntopism in the form of small and larger nano-scale ECW platelet morphologies. These findings provide additional support for earlier suggestions that due to fluctuations in leaf hydrophobicity throughout the growing season, canopy storage capacity may also vary considerably throughout this time period.

基于改进Yolov5s的水稻叶病检测方法

水稻叶病防治在提高水稻产量中具有重要作用,针对水稻叶病人工检查速度慢、主观性高的问题,提出一种基于改进Yolov5s的水稻叶病目标检测方法。采用K-means聚类算法得到先验框尺寸,增强检测模型对水稻叶病的适应性;将轻量级空间注意力与通道注意力融合,对高层语义特征信息增强,增强模型对病害信息的感知度;并结合特征金字塔网络,融合多尺度感受野获取目标上下文信息,有效地增强模型对目标周围特征的提取,提高目标检测的准确度。试验结果表明:改进后的Yolov5s算法平均检测精度(IOU=0.5)提高4.3%,F1值提高5.3%,帧率FPS为58.7 f/s。有效提升Yolov5s算法对水稻叶病的检测精度,达到实时检测的需求。

改进YOLOv8的农作物叶片病虫害识别算法

针对传统检测网络难以准确、高效地提取农作物叶片病虫害特征信息的问题,通过改进YOLOv8网络,提出一种多层级多尺度特征融合的农作物叶片病虫害识别算法。通过学习不同层级特征直接的特征关系,构建多层级特征编码模块,学习全面的特征表达;在Transformer的基础上设计多尺度空间—通道注意力模块,利用学习细粒度、粗粒度等多尺度全面的特征表达模式,捕获不同尺度特征之间的互补关系,并将所有特征表示有效融合起来,构成完整的图像特征表示,进而获取更佳的识别结果。在Plant Village公开数据集进行试验验证,结果表明:提出的改进方法能够有效提升配准精度,准确地识别出农作物叶片上同时存在的不同病虫害,对番茄叶片检测的mAP 0.5达到88.74%,比传统YOLOv8方法提升8.53%,且计算耗时没有明显增加。消融试验也充分证明所提各个模块的有效性,能够更好地实现高精度识别叶片病虫害,为农田智慧化管理提供有力支持和保障。

西伯利亚百合器官离体培养及结鳞茎的研究

通过对西伯利亚百合不同外植体离体培养、生根培养以及结鳞茎的研究,建立了组织培养快速繁殖技术体系.结果表明:诱导鳞茎不定芽分化的最佳培养基为MS+1.0 BA+0.5 NAA,大于2 cm叶片长的分化率达到135.67%;诱导叶柄不定芽分化的最适培养基为MS+0.5 BA+1.0 NAA,分化率达到28%;诱导叶片不定芽分化的最适培养基为MS+0.5 BA+1.0 NAA+0.1 KT,分化率达到12.50%.最适增殖培养基为MS+0.2 NAA,60 d后增值率达到318%;最佳结鳞茎和生根培养基为MS+9%蔗糖,蔗糖浓度为3%～9%时,对结鳞茎和生根具有促进作用,11%时,对其具有抑制作用.

秦岭野生宜昌百合的组织培养研究

为了有效地保存、扩繁秦岭野生宜昌百合资源,以秦岭野生宜昌百合为材料,研究了鳞片和叶片不同部位,以及不同激素配比对不定芽诱导、增殖及生根的影响。结果表明,鳞片诱导不定芽的适宜培养基为MS+2.0mg/L 6-BA+0.05 mg/L NAA,鳞片分化不定芽的能力为基部>中部>上部,三者之间差异极显著;叶片诱导不定芽的适宜培养基为MS+1.0 mg/L 6-BA+0.1 mg/L NAA+2.0 mg/L 2,4-D,叶片不定芽的诱导率为基部高,中部和尖部低,且基部与中部和尖部差异极显著;不定芽增殖的适宜培养基为MS+1.0 mg/L 6-BA+0.05 mg/L NAA;适宜生根的培养基为1/2MS+0.4 mg/L NAA+1.0 g/L活性炭(AC)。以上结果表明,鳞片和叶片分化不定芽存在明显的位置效应,6-BA和NAA配合对不定芽增殖有良好的效果,NAA和AC配合适宜生根。

虎眼万年青组织培养研究

本文以虎眼万年青(Ornithogatum caudcutum)的花茎、花药、鳞片、叶片、子房为材料,在MS附加不同激素的琼脂培养基上进行了离体培养试验.结果表明:二年生鳞茎单鳞片直接分化不定芽的能力最强,BA 3.0mg/L+NAAO.5mg/L为最佳激素组合;鳞片在MS附加BA1.0mg/L+2,4-D 1.0mg/L琼脂培养基上愈伤组织诱导率最高;愈伤组织在MS附加BA 1.0mg/L+NAA 0.5mg/L培养基上芽的分化率最高.

黑河流域叶面积指数(LAI)空间尺度转换

为有机地整合利用不同分辨率遥感数据获取的陆面过程以及其他相关的环境变量,尺度问题越来越受到人们的重视。选取黑河张掖绿洲区为实验研究区,利用ETM+影像反演的LAI通过升尺度转换到900m分辨率,对LAI尺度转换过程中引起的误差进行了定量分析,尝试提出一种新的基于NDVI像元分解的更有效的升尺度转换方法。研究发现非线性的升尺度算法引起的误差不超过10.5%,且误差大小与地表异质性程度正相关,而地表异质性是导致LAI尺度转化误差的主要原因,严重时可能造成45%的偏差,但纯像元LAI的计算不受尺度影响。提出的基于NDVI像元分解的LAI升尺度转换算法,分两步考虑了地表异质性问题,很好的实现了研究区30m空间精度LAI向900m的尺度转换,该方法应用于干旱、半干旱的中国西北黑河流域NASA发布的MODISLAI产品校正,取得了良好效果。

百合鳞叶DNA提取及RAPD分析

以百合新鲜鳞叶为材料,利用RAPD分子标记对来自我国5省共16份百合样品进行了分析。结果表明:采用改良CTAB法提取百合鳞叶中DNA条带清晰较,且从120条随机引物中筛选出35条有效引物,共得到769个扩增位点,其中628个位点具有多态性,占81.7%。聚类分析表明,16个百合材料在阈值为0.940 7时分为2个RAPD群,即分别属于百合科的百合属和大百合属;阈值为0.579 0时,百合属分为3个种,即分别为百合、卷丹和细叶百合。这些均可为进一步研究百合的分子生物学特性打下基础,为鉴定中药材百合品种品系的新方法提供充分的实验依据。

风信子外植体植株再生系统的研究

风信子叶片及鳞片直接诱导不定芽的培养基为ＭＳ附加６－ＢＡ２．５ｍｇ／Ｌ、ＮＡＡ２．０ｍｇ／Ｌ、ＩＡＡ０．５ｍｇ／Ｌ和ＭＳ附加６－ＢＡ２．５ｍｇ／Ｌ、ＮＡＡ２．５ｍｇ／Ｌ．不定芽发育成小鳞茎的培养基为ＭＳ附加ＧＡ０．２ｍｇ／Ｌ、ＩＡＡ０．５ｍｇ／Ｌ．鳞茎移栽成活率为９０％．

风信子离体快繁体系的建立

研究以风信子Gipsy queen的鳞片及幼叶为外植体直接诱导不定芽生成,结果表明:Gipsy queen单鳞片、双鳞片的初代最佳诱导培养基为:MS+6-BA5.0mg·L-1+NAA0.1mg·L-1,且双鳞片诱导效果好于单鳞片,诱导率达100%,增殖系数达10;幼叶外植体初代最佳诱导培养基为:MS+6-BA3.0mg·L-1+NAA0.2mg·L-1,幼叶作为外植体比鳞片诱导效果好,诱导率达100%,增殖系数达26.27;最佳继代培养基为:MS+6-BA2.0mg·L-1+NAA0.5mg·L-1+KT0.2mg·L-1,增殖系数达2.91;生根诱导最佳培养基为:1/2MS+NAA0.2mg·L-1,生根率可达93.33%。

基于数据分割与主成分分析的LAI遥感估算

针对叶面积指数(LAI)经典统计反演模型存在估算效果不理想以及反演效率低等问题,提出了一种基于农学物候的数据分割与主成分分析结合的遥感估算方法.综合了原始光谱和微分(或差分)光谱主成分信息作为自变量,融入了以农学物候为先验的数据分割思想,并引入了多尺度建模方式参与反演过程.以冬小麦为实验对象,进行数值模拟和比较分析.结果显示,该方法既能有效地提高整体估算精度,又能显著地改善数据饱和问题,且在全样本遍历时体现了稳定鲁棒性.

百合鳞片扦插时机和方法对籽球新芽萌生形态及开花的影响

研究了百合露地鳞片扦插繁殖时，扦插时机和方法对籽球新芽萌生形态及开花的影响。在越冬前，9月20号以前扦插繁殖的籽球会萌生鳞片叶，但不抽地上茎；7月20日前用母鳞片扦插时，1／3～1／2露出扦插比3cm覆土扦插鳞片叶的萌生率要高。越冬后，7月20日前扦插繁殖的籽球会萌生鳞片叶和地上茎，但9月20日以后扦插繁殖的籽球只萌生鳞片叶。用母鳞片扦插比用新鳞片扦插繁殖的籽球地上茎萌生率高，露出扦插比覆土扦插地上茎萌生率高。籽球重量超过50mg并经过自然低温后有能力抽地上茎。7月20日前扦插繁殖的籽球第二年会开花，7月10日前扦插比7月20日扦插繁殖的籽球开花率高，露出扦插比覆土扦插开花率高。

植被冠层尺度生理生态模型的研究进展

随着人们对植物生命活动各个过程研究的不断深入,以植物生理过程、物理过程为基础的各种生理生态学模型逐渐发展起来,而植被冠层尺度生理生态学过程模型已成为生态系统模型的核心之一。目前植被冠层尺度的大叶模型、多层模型、二叶模型以其成熟的理论基础及对植被冠层的光合作用、蒸腾作用较为成功的模拟,得到了广泛的应用。3个模型都以光合作用-气孔导度-蒸腾作用耦合模型为基础,但又具有各自的特点。本文对3种模型的结构及特点进行了总结,并对其进行了比较,简要介绍了目前植被冠层尺度生理生态学模型的应用及存在的问题和发展状况。

百合离体培养与植株再生体系的建立

以香水百合鳞叶为外植体，探讨不同外源激素水平对其小鳞茎分化、增殖与不定根形成的影响。结果表明：以Ms＋6-BA 0．5～1．0mg／L＋IAA 0．1～0．3mg／L培养基的不定芽分化、增殖效果好，分化率达78．5％以上，增殖系数达5．6以上；1／2MS＋6-BA 0．1mg/L＋IAA 0．5mg／L或1／2 MS＋6-BA 0．1mg／L＋NAA 0．1～0．3mg／L或1／2MS＋6-BA0．1mg／L＋IBA 0．8mg／L的生根效果好，生根率可达96．0％以上；在泥炭：珍珠岩=1：1的基质中驯苗，成活率可达96．3％。