DISTRIBUTION PATTERNS OF LEAF AREA INDEX FOR MAJOR CONIFEROUS FOREST TYPES IN CHINA

Leaf area index (LAI) of natural vegetation is recognized as the most important variable for measuring vegetation structure over large areas, and for relating it to energy and mass exchange, which has been successfully estimated from satellite resolution sensors. In this paper, according to the statistical analysis based on a lot of forest plots, the mathematical models of LAI distribution patterns in the hydro thermal spaces for five coniferous forest types in China were established. For the cold temperate larch forests growing in the dry and cold climate, their LAI increases with the increasing of warm index and precipitation in the way of hyperbolic quadratic surface. For the cold temperate spruce fir forests and temperate Pinus tabulaeformis forests, their LAI is negatively related to the annual mean air temperature in the way of the natural exponential curve, in order to adapt to the water oppressed environments. For the subtropical Pinus massoniana forests and Cunninghamia lanceolata forests growing in the warm and moist climate, their LAI is related to the annual mean air temperature in the way of the parabolic quadratic curve.

Using leaf area index(LAI) to assess vegetation response to drought in Yunnan province of China

Climatic extremes such as drought have becoming a severe climate-related problem in many regions all over the world that can induce anomalies in vegetation condition. Growth and CO2 uptake by plants are constrained to a large extent by drought.Therefore, it is important to understand the spatial and temporal responses of vegetation to drought across the various land cover types and different regions. Leaf area index(LAI) derived from Global Land Surface Satellite(GLASS) data was used to evaluate the response of vegetation to drought occurrence across Yunnan Province, China(2001-2010). The meteorological drought was assessed based on Standardized Precipitation Index(SPI)values. Pearson's correlation coefficients between LAI and SPI were examined across several timescales within six sub-regions of the Yunnan. Further, the drought-prone area was identified based on LAI anomaly values. Lag and cumulative effects of lack of precipitation on vegetation were evident, with significant correlations found using 3-, 6-, 9-and 12-month timescale. We found 9-month timescale has higher correlations compared to another timescale.Approximately 29.4% of Yunnan's area was classified as drought-prone area, based on the LAI anomaly values. Most of this drought-prone area was distributed in the mountainous region of Yunnan.From the research, it is evident that GLASS LAI can be effectively used as an indicator for assessing drought conditions and it provide valuable information for drought risk defense and preparedness.

A NEW QUANTITATIVE WAY FOR DETERMINING LEAF AREA INDEX AND NET PRIMARY PRODUCTIVITY IN REGIONAL SCALE

An inversion of bidirectional reflection distribution fiJnedon (BRDF) wastested using NK Model and NOAA AVHRR datu. The test involVed sensitiveanalysis, optimum inversion selecting, ground simulated expenment, calibrahngmeasuremed with satellite and computer image processmg. Results of comparisonwith NDVI indicatal that inversion of BRDF will have brigh developing prospect inthe next decade.

Leaf pigment retrieval using the PROSAIL model: Influence of uncertainty in prior canopy-structure information

Leaf pigments are critical indicators of plant photosynthesis,stress,and physiological conditions.Inversion of radiative transfer models(RTMs)is a promising method for robustly retrieving leaf biochem-ical traits from canopy observations,and adding prior information has been effective in alleviating the“ill-posed”problem,a major challenge in model inversion.Canopy structure parameters,such as leaf area index(LAI)and average leaf inclination angle(ALA),can serve as prior information for leaf pigment retrie-val.Using canopy spectra simulated from the PROSAIL model,we estimated the effects of uncertainty in LAI and ALA used as prior information for lookup table-based inversions of leaf chlorophyll(C _(ab))and car-otenoid(C_(ar)).The retrieval accuracies of the two pigments were increased by use of the priors of LAI(RMSE of C_(ab) from 7.67 to 6.32μg cm^(-2),C_(ar) from 2.41 to 2.28μg cm^(-2))and ALA(RMSE of C_(ab) from 7.67 to 5.72μg cm^(-2),C_(ar) from 2.41 to 2.23μg cm^(-2)).However,this improvement deteriorated with an increase of additive and multiplicative uncertainties,and when 40% and 20% noise was added to LAI and ALA respectively,these priors ceased to increase retrieval accuracy.Validation using an experimental winter wheat dataset also showed that compared with C_(ar),the estimation accuracy of C_(ab) increased more or deteriorated less with uncertainty in prior canopy structure.This study demonstrates possible limita-tions of using prior information in RTM inversions for retrieval of leaf biochemistry,when large uncer-tainties are present.

Spatial distribution and sampling of larvae of Phthorimaea operculella(Zeller) and its harmfulness

Studies in tobacco fields were conducted in 1993. The results showed that the distribution pattern of the larva was aggregative,and the aggregation did not change with the densities of population of the larva. The characteristics of the vertical distribution of the larva on tobacco plants was more in the lower leaves than in the upper. The difference of population density among the tobacco fields with an elevation of 490 meters and 900 meters was not significant. The number of sampling was given under different precisions by using two-stage sampling technique. The average of leaf area loss caused by the larva in tobacco fields was 12.654 cm2.

长白山区4种针叶林有效叶面积指数遥感精细反演及空间分布规律

[目的]研究快速、准确、宏观获取不同森林类型有效叶面积指数(LAI_(e))的方法,探讨其空间分布规律,为中小尺度森林LAI_(e)遥感产品的开发提供新思路,为林业精细化监测和森林生态系统碳水循环模拟提供科学可靠的技术手段。[方法]以长白山为研究区,基于Sentinel-2A多光谱影像,运用三维卷积神经网络提取研究区4种针叶林型(长白落叶松、樟子松、红松和红皮云杉)的空间分布;采用区分林型和全样本2种方案,分析样地实测LAI_(e)与7种植被指数(增强植被指数、反红边叶绿素指数、改进简单植被指数、归一化水体指数、归一化植被指数、土壤调节植被指数、简单植被指数)的相关关系;利用各林型对应的最优植被指数,构建区分林型和全样本LAI_(e)与植被指数的回归模型,并基于验证样本数据对比区分林型模型、全样本模型和PROSAIL模型在LAI_(e)反演中的精度表现;结合地理因子分析4种针叶林型LAI_(e)空间格局及变化规律。[结果]所有样本组中7种植被指数与相对的LAI_(e)均存在极显著相关关系(P<0.01),除增强植被指数(EVI)与红松LAI_(e)、简单植被指数(SR)与红皮云杉LAI_(e)外,相关系数均大于0.6,但组间LAI_(e)与不同植被指数相关性具有较大差异;红松、长白落叶松和樟子松LAI_(e)与反红边叶绿素指数(IRECI)相关性最高,红皮云杉、红松LAI_(e)分别与EVI、改进简单植被指数(MSR)相关性最高;4种不同林型模型比全样本模型的R2提高12.7%以上,RMSE降低34.5%;研究区内4种林型LAI_(e)范围在0.37~5.86之间,平均LAI_(e)由高至低依次为红松、长白落叶松、樟子松、红皮云杉。红松对海拔、坡度、坡向的变化最为敏感,红皮云杉、樟子松次之,长白落叶松最小。[结论]不同林型LAI_(e)与遥感植被指数的相关程度存在明显差异,区分林型构建回归模型能够提高LAI_(e)反演精度;区分林型后拟合的线性模型精度整体较PROSAIL模型和全样本模型更高,但LAI_(e)高值区域没有PROSAIL模型表现稳定;4种针叶林型LAI_(e)对地理因子变化的反应差异较大。本研究可为精细区分森林类型的中小尺度针叶林LAI_(e)遥感反演研究提供参考。

Dynamic Variation and Simulation of Extinction Coefficient of Corn Population

[Objective] The aim was to study the dynamic variation of extinction coefficient of corn population, so as to improve the accuracy of assessment on net primary productivity （NPP） or yield. [Method] Based on the data of photosynthetic active radiation and leaf area index during corn growing season （from May to September） in 2006, observed in Jinzhou observation station of corn farmland ecosystem, China Meteorological Administration, the dynamic variation of extinction coefficient of corn population was analyzed. [Result] There was a great daily variation in the extinction coefficient of corn population during growing season, and the maximum value appeared from 7：00 to 9：00 and from 15：00 to 17：00, while the minimum could be found around 12：00, but the amplitude of variation decreased in tasseling stage. On a large time scale （5 d）, there was a parabolic relationship between extinction coefficient （K） and leaf area index （LAI）, with determination coefficient R2 of 0.960 7. The simulation equation of extinction coefficient, based on the sun elevation angle or leaf area index, had poor accuracy at various time during growing season, so a new dynamic model of extinction coefficient was established, namely K=λ（0.784 8-0.001 6θ）（0.154 8LAI2-0.558 6LAI＋0.654）. [Conclusion] The effect of sun elevation angle and leaf area index on extinction coefficient during corn growing season was considered in the new dynamic model of extinction coefficient, and its simulated result was superior to that of single-factor model.

Evaluation of the New Dynamic Global Vegetation Model in CAS-ESM

In the past several decades, dynamic global vegetation models（DGVMs） have been the most widely used and appropriate tool at the global scale to investigate vegetation-climate interactions. At the Institute of Atmospheric Physics, a new version of DGVM（IAP-DGVM） has been developed and coupled to the Common Land Model（CoLM） within the framework of the Chinese Academy of Sciences＇ Earth System Model（CAS-ESM）. This work reports the performance of IAP-DGVM through comparisons with that of the default DGVM of CoLM（CoLM-DGVM） and observations. With respect to CoLMDGVM, IAP-DGVM simulated fewer tropical trees, more ＂needleleaf evergreen boreal tree＂ and ＂broadleaf deciduous boreal shrub＂, and a better representation of grasses. These contributed to a more realistic vegetation distribution in IAP-DGVM,including spatial patterns, total areas, and compositions. Moreover, IAP-DGVM also produced more accurate carbon fluxes than CoLM-DGVM when compared with observational estimates. Gross primary productivity and net primary production in IAP-DGVM were in better agreement with observations than those of CoLM-DGVM, and the tropical pattern of fire carbon emissions in IAP-DGVM was much more consistent with the observation than that in CoLM-DGVM. The leaf area index simulated by IAP-DGVM was closer to the observation than that of CoLM-DGVM; however, both simulated values about twice as large as in the observation. This evaluation provides valuable information for the application of CAS-ESM, as well as for other model communities in terms of a comparative benchmark.

Changes in Global Vegetation Distribution and Carbon Fluxes in Response to Global Warming:Simulated Results from IAP-DGVM in CAS-ESM2

Terrestrial ecosystems are an important part of Earth systems,and they are undergoing remarkable changes in response to global warming.This study investigates the response of the terrestrial vegetation distribution and carbon fluxes to global warming by using the new dynamic global vegetation model in the second version of the Chinese Academy of Sciences(CAS)Earth System Model(CAS-ESM2).We conducted two sets of simulations,a present-day simulation and a future simulation,which were forced by the present-day climate during 1981-2000 and the future climate during 2081-2100,respectively,as derived from RCP8.5 outputs in CMIP5.CO_(2)concentration is kept constant in all simulations to isolate CO_(2)-fertilization effects.The results show an overall increase in vegetation coverage in response to global warming,which is the net result of the greening in the mid-high latitudes and the browning in the tropics.The results also show an enhancement in carbon fluxes in response to global warming,including gross primary productivity,net primary productivity,and autotrophic respiration.We found that the changes in vegetation coverage were significantly correlated with changes in surface air temperature,reflecting the dominant role of temperature,while the changes in carbon fluxes were caused by the combined effects of leaf area index,temperature,and precipitation.This study applies the CAS-ESM2 to investigate the response of terrestrial ecosystems to climate warming.Even though the interpretation of the results is limited by isolating CO_(2)-fertilization effects,this application is still beneficial for adding to our understanding of vegetation processes and to further improve upon model parameterizations.

Scale effects of leaf area index inversion based on environmental and disaster monitoring satellite data

The spatial distribution of sub-pixel components has an impact on retrieval accuracy,and should be accounted for when inverting a three-dimensional adiative transfer model to retrieve leaf area index(LAI).To investigate this effect,we constructed three realistic scenarios with the same LAI values and other properties,except that the simulated plants had different distributions.We implemented the radiosity method to subsequently produce synthetic bidirectional reflectance factor(BRF) datasets based upon these simulated scenes.The inversion was conducted using these data,which showed that spatial distribution affects retrieval accuracy.The inversion was also conducted for LAI based on charge-coupled device(CCD) data from the Environment and Disaster Monitor Satellite(HJ-1),which depicted both forest and drought-resistant crop land cover.This showed that heterogeneity in coarse-resolution remote sensing data is the main error source in LAI inversion.The spatial distribution of global fractal dimension index,which can be used to describe the area of sub-pixel components and their spatial distribution modes,shows good consistency with the coarse resolution LAI inversion error.

植被地带性分布及植物功能性状对拉萨南北山绿化的启示

为满足人民日益增长的对优美生态环境的需求,西藏自治区党委从筑牢国家生态安全屏障的高度,提出了《拉萨南北山绿化工程总体规划(2021—2030)》,计划通过10年在拉萨城区等9县(区)35个乡镇完成营造林206.7万亩。本文围绕拉萨南北山自然植被分布及潜在绿化树种的选择问题,从植被的地带性分布以及植物功能性状的角度进行了分析,旨在为高寒干旱区科学种树和绿色可持续发展提供理论支撑。基于植被的地带性分布考虑,拉萨属于雅鲁藏布江中游谷地亚高山灌丛、草原亚区,即自然植被主要发育为亚高山灌丛、草原。类似的,从气候—林相分布图来看,拉萨城区亦落在了草灌丛地范围内。对拉萨城区以及墨竹工卡县过去几十年的气象观测数据分析表明,两个站点气温均呈现显著增加趋势,平均增幅为0.55℃/10年,但降水变化趋势不明显。按照这一变化趋势,拉萨城区及周边地区的自然植被仍将保持草灌丛类型,不大可能发展为较为湿润的疏林地带或温带森林。从植物功能性状来看,基于气温估算拉萨城区及周边地区(3650~4100m)植被叶寿命在2.55~3.24年之间,表明潜在植被为常绿森林,受限于水分条件,该区域不适合种植高叶寿命(高叶面积指数)的人工林群落。通过不同的物种选择和搭配,将人工建植群落叶寿命控制在理论值范围,可为拉萨南北山绿化及可持续发展提供科学依据。

基于无人机多源遥感的玉米LAI垂直分布估算

为探究无人机多源遥感影像估算玉米叶面积指数(Leaf area index,LAI)垂直分布,在田间设置了密度和播期试验,在7个生育时期利用无人机采集了可见光、多光谱和热红外影像并同步获取玉米LAI垂直分布数据。同时,为合理制定无人机飞行任务,分析了不同飞行高度和不同太阳高度角下获取的无人机影像对估算玉米LAI的影响。基于无人机影像提取的与玉米LAI相关性较高的植被指数、纹理信息和冠层温度等特征,利用7种机器学习方法分别构建了玉米冠层不同高度LAI估算模型,从中选取鲁棒性强的2个模型用于分析在不同飞行高度和不同太阳高度角下估算LAI的差异。研究结果表明,MLPR和RFR模型对玉米LAI估算鲁棒性最强,全生育期下模型rRMSE为11.31%(MLPR)和11.42%(RFR)。玉米冠层LAI垂直分布估算误差,所有模型的平均rRMSE分别为9.1%(LAI-1)、14.19%(LAI-2)、18.62%(LAI-3)、23.29%(LAI-4)和26.7%(LAI-5)。对于玉米穗位叶及以下部位的LAI估算误差均在20%以下,得到了较好精度。同时,在不同飞行高度和太阳高度角试验中可以得出,当飞行高度为30 m时LAI估算精度最高,R^(2)为0.73,rRMSE为10.97%,在09:00—10:00观测的玉米LAI估算精度最高。无人机多源遥感影像数据可以准确估算玉米冠层LAI垂直分布,及时掌握玉米功能叶片LAI长势差异,可为玉米品种筛选提供辅助。

基于多模型和多源数据的京津冀地区BVOCs排放清单

为系统研究京津冀地区天然源挥发性有机物(BVOCs)排放量及时空分布特征,基于蓄积量产量、土地利用遥感解译数据、MEGAN模型,计算获得了2018年京津冀地区各区县BVOCs排放量及排放组成.结果表明,基于蓄积量产量、遥感解译和Megan数值模型的2018年京津冀地区BVOCs排放总量分别为74.14万t,84.48万t和77.73万t.北京、天津和河北平均排放总量分别为11.8万t、3.2万t和63.7万t;异戊二烯、单萜烯和其他VOCs平均排放量分别为29.19万t、22.58万t和27.41万t,林地、耕地和草地占比分别为68.42%、23.07%和3.89%.从时间分布来看,京津冀地区BVOCs排放呈显著单峰型,其中夏季排放最高,达到52.64万t,占全年总排放量的66.64%,而冬季平均排放量最低,仅有1.59万t,占全年总排放量的2.01%.从空间分布来看,基于多源清单的BVOCs空间分布均呈现出北高南低的趋势,高排放地区沿太行山脉及燕山山脉走势较为明显,这些地区主要以林地草地排放为主,而冀东南平原地区主要以耕地排放为主.从方法差异来看,基于遥感解译的光温模型获得的排放量相对偏高,动态模型获得的其他VOCs占比相对偏高.本研究为全面认识京津冀地区BVOCs排放特征和规划空气质量持续改善策略提供了基础数据支撑.

水稻根系分布与叶角关系的研究初报

1983—1984年,通过群体水培、土培试验,在控制水稻根系不同分布空间形状情况下,研究了叶角与根系分布的关系,其结果主要表现如下:1.根系分布较深且多纵向时,叶角较小,叶片趋向于直立;根系分布较浅且少纵向时,叶角较大,叶片趋向于披垂。2.叶角的大小同时受叶片大小的影响,根系分布较浅且少纵向时,较大的叶片更易披垂,叶角更大,根系分布较深且多纵向时较大的叶片仍可保持直立,较小的叶片更易直立,叶角更小。试验指出:叶角的大小在很大程度上受根系分布的调控。在群体叶面积指数较大的情况下,培育分布深而多纵向的根系,有利于改善群体通风透光,增加群体光合作用和提高产量。

对生玉米叶面积分布、蒸腾速率和水分利用率的研究

研究了６个品种（系）的对生和互生玉米的叶面积分布、蒸腾速率（Ｔ_ｒ）和水分利用率（ＷＵＥ）。 结果表明，对生玉米单株叶数和叶面积比互生玉米分别高出１９２％～２２０％和１３０％～１９０％。两者的不 同叶位与叶面积之间均呈极显著的二次抛物线回归关系，即判断得最大叶面积的叶位数为６。后期（灌 浆期起），对生玉米叶绿素含量高于互生的，差异显著。在睛天，对生和互生玉米的Ｔ_ｒ、气孔导度（Ｇ_ｓ） 以中午前后最高，其日变化与光量子通量密度（ＰＦＤ）、叶温（Ｔ_１）、叶片一大气之间的水蒸气压亏缺 （ＶＰＤ）等因子显著相关，ＰＦＤ对Ｔ_ｒ、Ｇ_ｓ影响较明显。对生玉米Ｔ_ｒ和Ｇ_ｓ低于互生的，两者之间的净光 合速率（Ｐ_ｎ）差异不显著，对生玉米的ＷＵＥ高于互生的，差异显著。表明对生比玉生玉米对干旱条件 的适应性较强。

基于优化PROSAIL叶倾角分布函数的玉米LAI反演方法

叶面积指数(LAI)是描述玉米冠层结构的重要参数之一,PROSAIL模型是常用于反演LAI的机理模型,能较为真实地反演植被冠层真实情况,但PROSAIL模型中使用的叶倾角分布函数假定区域内所有作物叶倾角分布是相同的,不能反映玉米植株真实的叶倾角分布情况。本研究以高分一号遥感影像和地基激光雷达点云数据作为数据源,充分利用地基激光雷达(TLS)在获取植被结构参数上的优势,通过体素化的方法对玉米叶片回波点云进行分割,获取每个拟合叶片单元的叶倾角,进而得到玉米植株真实的叶倾角分布,结合椭球分布函数得到玉米精确的叶倾角分布函数,实现对PROSAIL模型中叶倾角分布函数的优化。研究过程中分别基于未改进的PROSAIL模型和经过TLS优化后的PROSAIL模型反演黑龙江825农场主要玉米种植区的LAI。LAI反演结果表明:2种反演方法得到的LAI与实测LAI都具有较好的相关性,决定系数R2分别为0.557 6和0.858 3,模型可信度较高;但基于PROSAIL模型反演所得LAI结果偏低,在利用TLS数据提取叶倾角对模型进行优化后,反演LAI的估算精度由26.53%提高到96.23%。由此可知,通过引入TLS点云数据改进农作物叶倾角分布函数能大幅度提高LAI反演的准确性。

云杉截留降雨实验与模型

该文通过实验室模拟实验 ,得到了不同雨强和不同叶面积指数组合下的云杉截留降雨过程 ,同时考虑了树冠湿润度的影响 .依据实验资料 ,建立了单位叶面积最大截留量随雨强增大而减小和枝叶截留速率随树冠湿润度变化的定量关系 ,进而构建了云杉截留降雨随雨强和叶面积指数变化的模型 .最后 ,通过对模型模拟验证 ,得到模型对截留过程的模拟精度为 91 5 % .

红光与远红光比值对温室切花菊形态指标、叶面积及干物质分配的影响

以切花菊品种‘神马’(Chrysanthemum morifolium Ramat‘Jinba’)为试材,于2010—2011年设计不同红光(R:(660±10)nm)与远红光(FR:(730±10)nm)比值(R/FR分别为0.5、2.5、4.5、6.5)的LED灯照射处理,研究不同R/FR值对温室切花菊形态指标、叶面积形成及干物质分配的影响。结果显示R/FR=2.5处理的植株叶片数、株高、茎粗、花径、叶面积及总干重均为各个处理中最高,R/FR=0.5处理的节间最长。所有R/FR处理的单株地上干物质重量与光质处理天数呈指数-线性模型。随处理天数的增加不同R/FR值处理菊花植株地上部分及地下部分干物质分配指数差异均不显著,叶片和花的干物质分配指数随处理天数的增加分别呈降低和升高的趋势,茎干物质分配指数则呈现先升高后降低的趋势,R/FR=2.5处理下,菊花叶片干物质分配指数和花干物质分配指数最高,而茎干物质分配指数却为最低;R/FR=6.5处理茎干物质分配指数最高,叶片干物质分配指数最低;0.5处理花朵干物质分配指数最低,说明远红光比例增加能够促进干物质向茎中分配,R/FR=2.5处理利于干物质向花朵中分配。

棉花叶系质量划分及叶层配置的研究

对棉花品种泗棉3号等采用大田群体与实验室盆栽试验相结合的方法,应用14C同位素标记、剪叶试验及其生理测定等手段,研究在最大LAI相近条件下,叶片的组成、功能和大小分布对成铃和产量的影响。结果表明,棉花叶片的光合产物的运输分配流向及对棉花成铃和产量的作用是不同的,按其对棉铃形成和发育贡献的大小可划分为有效叶、无效叶、高效叶及低效叶,并且明确了在开花结铃期提高有效叶面积率、高效叶面积率,并塑造较小的叶片,均匀的叶层分布的叶层配置可提高群体光合效能,从而确保光合产物向产量器官的输送,提高成铃率,增加总铃数和产量的叶系质量特征。

棉花冠层叶面积的动态模拟

根据试验资料,在系统分析棉花冠层叶面积时空分布规律的基础上,充分考虑叶面积空间垂直分布的异质性,以生育期内累积的每日相对热效应为预报因子,构建了棉花叶面积垂直分布和叶面积指数的动态模拟模型。利用不同年份不同播期的试验资料对模型进行了验证,累积叶面积指数L(z)的模拟结果与1∶1直线之间的R2和均方根误差分别为0.969和0.257,叶面积指数LAI的模拟结果与1∶1直线之间的R2和均方根误差分别为0.936和0.305。结果说明模型具有较好的预测性和实用性。模型的模拟结果可作为冠层结构参数,用于冠层辐射传输模型和光合作用模型。