1998/1999年南极夏季普里兹湾及北部海区叶绿素a和初级生产力的分布特征   总被引：11，自引：1，他引：11       下载免费PDF全文

刘子琳  蔡昱明  陈中元  刘诚刚  朱根海  王小谷 《极地研究》2002,14(1):12-21

1998 /1 999年南极夏季 ,作者随“雪龙船”在南极普里兹湾及其北部海区 (63° - 69°1 2′S ,70°30′- 75°30′E) 3条断面 2 4个测站进行浮游生物现存量和初级生产力的现场观测 ,研究叶绿素a浓度和初级生产力的分布特征。测区表层叶绿素a浓度为 0 .1 6 - 3 .99μg/dm3,普里兹湾内和湾西部四女士浅滩海域浓度在 3 .5μg/dm3以上 ;平面分布趋势从湾内向西北方向递减 ,深海区浓度在 0 .5μg/dm3以下。从垂向看叶绿素a浓度的最大值大多出现于 2 5m或 50m层 ,50m以下更深层的浓度随深度的增加而降低 ,2 0 0m层叶绿素a浓度分布范围为 0 .0 1 - 0 .95μg/dm3。粒径分级叶绿素a浓度以微小型浮游生物的贡献占优势 (56 % ) ,微型浮游生物的贡献占2 4 % ,微微型浮游生物的贡献占 2 0 %。测区潜在初级生产力为 0 .1 1～ 1 1 .67mgC/(m3·h) ,平均值为 2 .0 0± 2 .80mgC/(m3·h)。高生产力区位于普里兹湾 ,平均现场生产力达到 0 .86gC/(m2 ·d) ;依次为陆架区、陆坡区 ,深海区生产力较低 ,平均现场生产力为 0 .1 7gC/(m2 ·d)。光合作用同化数较低 (1 .53± 1 .1 1mgC/(mgChla·h) )。粒径分级初级生产力以微小型浮游生物的贡献占优势 (58% ) ,微型浮游生物的贡献占 2 6 % ,微微型浮游生物的贡献占 1 6 %。浮游植  相似文献   

太湖生态脆弱性特征与消除对策的初步探讨   总被引：7，自引：2，他引：5  

黄益斌  崔广柏  朱德明 《湖泊科学》1999,11(4):316-321

本文研究了Ｈｇ＾２＋,Ｃｄ＾２＋对痧生经济植物莼菜冬芽茎叶叶绿素含量,叶绿素ａ／ｂ值,可溶性蛋白含量,Ｏ＾－２含量以及活笥氧清除系统活性（ＳＯＤ,ＣＡＴ,ＰＯＤ）的影响,实验结果表明：叶绿素含量,叶绿素ａ／ｂ值、可溶性蛋白含量随着Ｈｇ＾２＋,Ｃｄ＾２＋处理浓度的加大呈下降趋势;  相似文献   

水位埋深对菖蒲萌发和幼苗生长的影响   总被引：1，自引：0，他引：1  

刘玉  王国祥  潘国权 《湖泊科学》2009,21(4):530-537

在直径35.5cm、深100cm的试验桶内装填厚度80cm的江沙,选择形态和节数一致的菖蒲根状茎栽种到桶内江沙中,调节并控制试验桶水位埋深,模拟研究湿地水位埋深变化对菖蒲萌发和幼苗生长的影响.为湿地生态系统保育和受损区域植被恢复提供理论依据.试验结果表明:(1)水位埋深对菖蒲萌发和幼苗生长有不同程度的影响,水位埋深为-60cm至-20cm条件下菖蒲皆能萌发,且随着水位埋深减小,萌发率降低.试验70d,-20cm试验组菖蒲萌发率达到90%,分别为-50cm和-60cm试验组的2.25和3倍.而0cm水位埋深条件下,菖蒲不萌发;(2)菖蒲幼苗叶长、叶宽和叶面积随水位埋深减小而减小.各试验组间差异极显著(P<0.01),叶片数量也随水位埋深减小而减小,-20cm和-40cm试验组极显著高于-50cm和-60cm试验组(P<0.01),且-60cm水位埋深严重影响菖蒲幼苗的存活,试验70d后菖蒲幼苗相继死亡;(3)随水位埋深减小,菖蒲幼苗叶片Ch1.a和Ch1.b含量下降,Ch1.a/b升高,类胡萝卜素(Car)含量升高,植物通过形态调节和减少色素含量来减少叶片对光能的捕获;(4)水位埋深过小导致的低土壤水分含量还使菖蒲幼苗叶片细胞膜脂过氧化加剧,细胞质膜透性迅速增大;(5)水位埋深影响菖蒲幼苗叶片快速光响应曲线,水位埋深越小,ETRmax和最小饱和光照强度越低,光响应能力越弱,  相似文献   

附着生物对太湖常见的两种沉水植物快速光曲线的影响   总被引：5，自引：2，他引：3  

宋玉芝  黄瑾  秦伯强 《湖泊科学》2010,22(6):935-940

在水草生长比较旺盛的季节(7-8月),以水草较丰富的贡湖湾作为采样区域,野外采样结合室内分析研究太湖常见的两种沉水植物马来眼子菜(Potamogeton malaianus)及穗花狐尾藻(Myriophyllum spicatum)叶上的附着生物的生物量;利用脉冲振幅调制叶绿素荧光仪研究去除附着生物前后两种沉水植物的光合作用的变化.结果表明,马来眼子菜和穗花狐尾藻两种沉水植物上的附着生物的现存量存在显著的差异,附着生物群落中自养生物与异养生物的比值没有显著差异;两种沉水植物在去除附着生物前后的光合参数有显著的变化,光合作用效率、半饱和光强、最大电子传递速率增加.这表明附着生物降低了沉水植物光合作用.  相似文献   

Optical properties and surface energy flux of spring fast ice in the Arctic     

Jialiang Zhu  Yilin Liu  Xiaoyu Wang  Tao Li 《海洋学报(英文版)》2021,40(10):84-96

Over the past decades, sea ice in the polar regions has been significantly affecting local and even hemispheric climate through a positive ice albedo feedback mechanism. The role of fast ice, as opposed to drift ice, has not been well-studied due to its relatively small coverage over the earth. In this paper, the optical properties and surface energy balance of land fast ice in spring are studied using in situ observations in Barrow, Alaska. The results show that the albedo of the fast ice varied between 0.57 and 0.85 while the transmittance increased from 1.3×10?3 to 4.1×10?3 during the observation period. Snowfall and air temperature affected the albedo and absorbance of sea ice, but the transmittance had no obvious relationship with precipitation or snow cover. Net solar shortwave radiation contributes to the surface energy balance with a positive 99.2% of the incident flux, with sensible heat flux for the remaining 0.8%. Meanwhile, the ice surface loses energy through the net longwave radiation by 18.7% of the total emission, while the latent heat flux accounts for only 0.1%. Heat conduction is also an important factor in the overall energy budget of sea ice, contributing 81.2% of the energy loss. Results of the radiative transfer model reveal that the spectral transmittance of the fast ice is determined by the thickness of snow and sea ice as well as the amount of inclusions. As major inclusions, the ice biota and particulates have a significant influence on the magnitude and distribution of the spectral transmittance. Based on the radiative transfer model, concentrations of chlorophyll and particulate in the fast ice are estimated at 5.51 mg/m2 and 95.79 g/m2, which are typical values in the spring in Barrow.  相似文献   

太湖水体叶绿素浓度反演模型适宜性分析   总被引：2，自引：0，他引：2  

王珊珊  李云梅  王永波  王帅  杜成功 《湖泊科学》2015,27(1):150-162

为确定适合太湖水体叶绿素的反演算法,为同类卫星数据的建模和应用提供参考,本文根据太湖2007年11月、2009年4月和2011年8月实测水质参数以及同步光谱数据,结合水色遥感传感器MODIS、MERIS、GOCI及我国自主发射的HJ-1号卫星CCD传感器波段参数,基于差值模型、比值模型、三波段模型及APPEL模型,分别建立太湖水体叶绿素浓度反演模型,并分析模型的适宜性.结果显示,基于不同传感器数据APPEL模型的决定系数为0.7308~0.8107,模型相对误差为15%~24%,均方根误差为21%~32%;三波段模型基于不同传感器数据拟合的决定系数为0.6014~0.7610,相对误差为28%~36%,相对均方根误差为39%~46%;差值模型决定系数为0.4954~0.7244,相对误差为39%~53%,相对均方根误差为51%~72%;比值模型决定系数为0.4918~0.7098,相对误差为41%~55%,相对均方根误差为56%~75%.相比较而言,APPEL模型的稳定性较强,适合于不同传感器数据的太湖水体叶绿素浓度的反演.此外,相应不同传感器波段位置、波段宽度对模型反演的精度和稳定性的影响也不同,当波段位置接近叶绿素特征波长时,较窄的波宽有利于模型精度的提高,波段位置和叶绿素浓度特征波长相差较大时,合理增加波谱范围有利于叶绿素特征信息的获取.  相似文献   

Effects of varying solar-view geometry and canopy structure on solar-induced chlorophyll fluorescence and PRI     

《International Journal of Applied Earth Observation and Geoinformation》2020

The increasing amount of continuous time series of solar-induced fluorescence (SIF) and vegetation indices (e.g. Photochemical Reflectance Index, PRI) acquired with high temporal (sub-minute) frequencies is foreseen to allow tracking of the structural and physiological changes of vegetation in a variety of ecosystems. Coupled with observations of CO₂, water, and energy fluxes from eddy covariance flux towers, these measurements can bring new insights into the remote monitoring of ecosystem functioning. However, continuously changing solar-view geometry imposes directional effects on diurnal cycles of the fluorescence radiance in the observation direction (F) and PRI, controlled by structural and biochemical vegetation properties. An improved understanding of these variations can potentially help to disentangle directional responses of vegetation from physiological ones in the continuous long-term optical measurements and, therefore, allow to deconvolve the physiological information relevant to ecosystem functioning. Moreover, this will also be useful for better interpreting and validating F and PRI satellite products (e.g., from the upcoming ESA FLEX mission).Many previous studies focused on the characterization of reflectance directionality, but only a handful of studies investigated directional effects on F and vegetation indices related to plant physiology. The aim of this study is to contribute to the understanding of red (F₆₈₇) and far-red (F₇₆₀) fluorescence and PRI anisotropy based on field spectroscopy data and simulations with the Soil-Canopy Observation of Photochemistry and Energy fluxes (SCOPE) model. We present an extensive dataset of multi-angular measurements of F and PRI collected at canopy level with a high-resolution instrument (FloX, JB Hyperspectral Devices UG, Germany) over different ecosystems: Mediterranean grassland, alfalfa, chickpea and rice.We found, that F₇₆₀ and F₆₈₇ directional responses of horizontally homogeneous canopies are characterized by higher values in the backscatter direction with a maximum in the hotspot and lower values in the forward scatter direction. The PRI exhibited similar response due to its sensitivity to sunlit-shaded canopy fractions.As confirmed by radiative transfer forward simulations, we show that in the field measurements leaf inclination distribution function controls the shape of F and PRI anisotropic response (bowl-like/dome-like shapes), while leaf area index and the ratio of leaf width to canopy height affect the magnitude and the width of the hotspot. Finally, we discuss the implications of off-nadir viewing geometry for continuous ground measurements. F observations under oblique viewing angles showed up to 67 % difference compared to nadir observations, therefore, we suggest maintaining nadir viewing geometry for continuous measurements of F and vegetation indices. Alternatively, a correction scheme should be developed and tested against multi-angular measurements to properly account for anisotropy of canopy F and PRI observations. The quantitative characterization of these effects in varying illumination geometries for different canopies that was performed in this study will also be useful for the validation of remote sensing F and PRI products at different spatial and temporal scales.  相似文献   

氮限制时间对海绿球藻和微绿球藻生长、总脂含量及脂肪酸组成的影响     

梁英  纪维玮  石伟杰  田传远  胡乃霞  闫译允 《海洋科学》2020,44(2):45-55

本文研究了不同氮限制时间(0、1、2、4、6 d)对海绿球藻(Halochlorococcum sarcotum)和微绿球藻(Nannochloris oculata)叶绿素荧光参数、细胞密度、生物量、叶绿素含量、总脂含量以及脂肪酸组成的影响。本实验结果表明,海绿球藻的最大相对电子传递速率rETR_(max)和快速光曲线的初始斜率α都随氮限制时间增加而降低,而光系统II最大光能转化效率F_v/F_m、非光化学淬灭NPQ以及最小饱和光照强度Ik都有先增加后下降的趋势,各参数都在氮限制第6d达到最小值。微绿球藻上述各参数的变化趋势均为随着氮限制时间增加而逐渐下降。随着氮限制时间增加,海绿球藻和微绿球藻细胞密度都有较小幅度的增加,分别在第5 d和第6 d达到最大值;两种绿藻的叶绿素含量均随氮限制时间的增加而降低,氮限制0 d时叶绿素含量最高, 6 d时叶绿素含量最低;在氮限制第2 d时二者总脂产率都达到最大值,分别为0.021 g·(L·d)~(–1)和0.017 g·(L·d)~(–1),由此可见,适合海绿球藻和微绿球藻产脂的最佳氮限制时间均为2 d。海绿球藻和微绿球藻的脂肪酸主要包括16:0、18:0、20:0、18:1n-9、18:2n-6和16:3n-3等。氮限制对海绿球藻的18:1n-9和MUFA(单不饱和脂肪酸总和)影响显著,均随氮限制时间增加而增加,而PUFA(多不饱和脂肪酸总和)含量随氮限制时间增加而降低;氮限制对微绿球藻的16:0、18:1n-9、16:3n-3、MUFA和PUFA有显著影响,随着氮限制时间增加, 16:0、18:1n-9及MUFA含量逐渐增加,而16:3n-3和PUFA含量逐渐降低。本实验结果可为进一步开发海绿球藻和微绿球藻并对其进行大规模培养提供理论依据。  相似文献   

中国东海叶绿素浓度变化分析及其海水温度响应   总被引：1，自引：0，他引：1  

江杉  王益澄  马仁锋 《测绘通报》2020,(6):39-44

海洋叶绿素浓度时空格局分析及与海水温度的响应研究对于海洋资源的开发和保护及赤潮的预防具有重要意义。本文基于2004—2018年东海叶绿素浓度和海水温度数据运用趋势分析及ArcGIS10.2软件，对东海叶绿素浓度作了时空分析研究，并结合海水温度进行了回归分析，以探究叶绿素对海水温度变化的响应机制。结果表明：①东海叶绿素浓度在2004—2018年间没有明显的年际变化特征。年内则随时间上下波动，冬季为波峰，夏季为波谷。离海岸带越近，叶绿素浓度越高。②东海海域海水温度在年际尺度上呈波动式起伏变化。在季节尺度上夏秋两季温度较高，春季次之，冬季最低。从沿海到外海海域海温逐渐升高。③就空间相关性而言，东海海域叶绿素浓度与海水温度整体呈负相关，在不同海域相关程度不同。长江口和外海区域叶绿素浓度与海水温度具有很强的相关性；在沿海区域，由于受到城市环境、经济发展及人类生产生活的影响，海水温度与叶绿素浓度的相关性不明显。  相似文献   

南黄海生物硅的时空变化     

张丹  鉴珊  孙军  冷晓云  张桂成 《海洋学报(英文版)》2019,38(12):101-110

Concentrations of biogenic silica(BSi) in the southern Yellow Sea were determined during four cruises(spring:April–May 2014; autumn: November 2014; summer: August–September 2015; winter: January 2016). Samples of BSi were measured using the double extraction method. Seasonal and spatial variations of BSi and the potential correlation between chlorophyll a(Chl a) content and BSi in four seasons were measured in this study. Significant spatial variability was observed in seawater BSi concentrations. The average concentration of BSi was highest in winter and lowest in spring. Furthermore, the relationships between concentrations of BSi and hydrological parameters were also discussed. There was a significant positive correlation between Chl a and BSi. The concentrations of BSi showed significant relationships with temperature and the concentrations of silicates, total inorganic nitrogen and total inorganic phosphorus, indicating that distribution of BSi was affected by temperature and nutrient level.  相似文献