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Evaluating the Conservation Efforts of Multi-Projects Using Remote Sensing and Light Use Efficiency Model: A Case of Nyungwe Forest National Park, Rwanda
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作者 Evariste Rutebuka Lixiao Zhang +2 位作者 Ernest Frimpong Asamoah Emmanuel Rukundo Apollinaire William 《Open Journal of Forestry》 2018年第1期68-86,共19页
This paper investigates the effectiveness of conservation efforts in the Nyungwe Forest National Park (Nyungwe). The forest is one of the six key landscapes identified for conservation in the Albertine Rift because it... This paper investigates the effectiveness of conservation efforts in the Nyungwe Forest National Park (Nyungwe). The forest is one of the six key landscapes identified for conservation in the Albertine Rift because it hosts many threatened species. As such, a number of different stakeholders have been involved in its conservation since 1987;yet, studies that emphasize and evaluate the success of these conservation efforts are limited. We combined a rapid and relatively low cost remotely-sensed data and the Light Use Efficiency model to generate forest conservation indicators such as NDVI, forest canopy Net Primary Productivity and carbon sequestered from 1986 to 2010. The influence of topographic and climatic factors on these indicators was examined. The supervised classifier was used to catalogue the area into Forest, Wetland, and Bareland. The forest was the major category (above 90%) of Nyungwe relative to wetland and bareland. Based on degradation intensity, two distinctive periods were realised;the first period spans 8 years (1986-1994) whereas the second spans 16 years (1994-2010). The former degradation intensity period is 10 times higher than the latter period. Although the size of forest recovered up to 90%, the daily NPP and carbon sequestration capacity decreased by 37.1% (i.e. NPP 6.5 Mg tons in 1986 to 4.1 Mg tons in 2010). Areas of the forest that are physically constrained (high altitude) had a higher degradation. Guided by our indicators, there is an overall success in conservation efforts, but efforts were mostly concentrated in accessible areas. Therefore, conservation efforts that aim to respond to degradation of the inaccessible areas of the forest should be stressed in the management plan of the park. 展开更多
关键词 CONSERVATION EFFORTS FOREST CANOPY COVER light use efficiency MODEL Remote Sensing Nyungwe Rwanda
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Radiation Use Efficiency of Cotton in Contrasting Environments
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作者 Evangelos D. Gonias Derrick M. Oosterhuis +1 位作者 Androniki C. Bibi Bruce A. Roberts 《American Journal of Plant Sciences》 2012年第5期649-654,共6页
Crop growth and yield varies among locations due to differences in environmental parameters, such as temperature, relative humidity, solar radiation and vapor pressure deficit. Previous research has shown that increas... Crop growth and yield varies among locations due to differences in environmental parameters, such as temperature, relative humidity, solar radiation and vapor pressure deficit. Previous research has shown that increasing vapor pressure deficit has a negative effect on radiation use efficiency of many crops. In this study, the radiation use efficiency of cot-ton (Gossypium hirsutum L.) grown in two contrasting production environments, Arkansas and California, was evaluated for two years, in 2006 and 2007. Temperature, relative humidity, vapor pressure deficit and photosyntheti-cally active radiation were recorded at both locations. Although the crop in California accumulated more dry matter during the period of the study, the radiation use efficiency was found to be lower compared to Arkansas. Radiation use efficiency for the Arkansas and California locations was estimated at 2.060 and 1.518 g?MJ–1 of intercepted photosynthetically active radiation, respectively. The higher productivity observed in California can be attributed to larger amounts of incident and intercepted radiation in this location. Radiation use efficiency of cotton was estimated to decrease with increasing vapor pressure deficit by a slope of –0.47 g?MJ–1?kPa–1. 展开更多
关键词 Dry MATTER Environment GOSSYPIUM hirsutum L. light INTERCEPTION Radiation use efficiency Vapor Pressure DEFICIT
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Evaluate the inactivation efficiency of HCV byMB/visible light using RTPCR
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《中国输血杂志》 CAS CSCD 2001年第S1期340-,共1页
关键词 HCV Evaluate the inactivation efficiency of HCV byMB/visible light using RTPCR
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Effects of extreme soil water stress on photosynthetic efficiency and water consumption characteristics of Tamarix chinensis in China's Yellow River Delta 被引量:10
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作者 Yuan Gao Jiangbao Xia +3 位作者 Yinping Chen Yanyun Zhao Qingxian Kong Ying Lang 《Journal of Forestry Research》 SCIE CAS CSCD 2017年第3期491-501,共11页
Soil moisture is a major limiting factor for plant growth on shell ridge islands in the Yellow River Delta. However, it is difficult to carry out situ experiment to study dominant plant photosynthesis physiological on... Soil moisture is a major limiting factor for plant growth on shell ridge islands in the Yellow River Delta. However, it is difficult to carry out situ experiment to study dominant plant photosynthesis physiological on the shell ridge islands under extreme soil water stress. To evaluate the adaptability of plants to light and moisture variations under extreme soil moisture conditions present on these islands, we measured photosynthetic gas exchange process, chlorophyll fluorescence, and stem sap flow variables for 3-year-old trees of Tamarix chinensis Lour, a restoration species on these islands, subjected to three types of soil water levels: waterlogging stress (WS), alternating dry-wet (WD), and severe drought stress (SS) to inform decisions on its planting and management on shell ridge islands. Gas exchange, chlorophyll fluorescence, and stem sap flow in T. chinensis were then measured. Net photosynthetic rate (PN), transpiration rate (E), and water use efficiency (WUE) were similar under WS and alternating dry-wet conditions, but their mean E and WUE differed significantly (P 〈 0.05). Under SS, the PN, E and WErE of T. chinensis leaves varied slightly, and mean PN, E and WUE were all low. Apparent quantum efficiency (AQY), light compensation point (LCP), light saturation point (LSP), and maximum net photosynthetic rate (PNmax) of leaves were not significantly different (P 〉 0.05) under WS and dry-wet conditions; however, under extreme drought stress, compared with the dry-wet conditions, LCP was higher, Lsp was lower, and AQy and PNmax were both at the lowest level. Therefore, drought stress weakened light adaptability of leaves, and the efficiency of light transformation was poorer. (3) Maximum photochemical efficiency (Fv/Fm) and the actual photochemical efficiency (ΦPSII) were similar under waterlogged stress and dry-wet conditions, indicating a similar healthy photosynthetic apparatus and photosynthetic reaction cen- ter activity, respectively. Under SS, Fv/Fm was 0.631, and the coefficient of non-photochemical quenching (NpQ) was 0.814, which indicated that while the photosynthetic mechanism was damaged, the absorbed light energy was mainly dissipated in the form of heat, and the potential photosynthetic productivity was significantly reduced. The daily cumulants of sap flow of T. chinensis under drywet alternation and severe drought stress were. 22.25 and 63.97% higher, respectively, than under waterlogging stress. Daily changes in sap flow velocity for T. chinensis differed under the three soil water levels. Stem sap flow was weak at night under severe drought stress. Under drywet alternation, daytime average stem sap flow velocity was the highest, and night stem flow accounted for 10.26% of the day cumulants, while under waterlogged stress, the average nightly stem flow velocity was the highest, accounting for 31.82% of the day cumulants. These results provide important information for regional vegetation restoration and ecological reconstruction. 展开更多
关键词 Chlorophyll fluorescence Gas exchange parameters light use efficiency Stem sap flow Wateruse efficiency
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Effects of LED light spectrum on the growth and energy use efficiency of eggplant transplants 被引量:1
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作者 Hao Yang Ting Wang +2 位作者 Fang Ji Qing Zhou Jianfeng Wang 《International Journal of Agricultural and Biological Engineering》 SCIE 2023年第3期23-29,共7页
To enhance the transplants’growth and reduce energy use efficiency,Eggplant(Solanum melongena L.)transplants(cv.Jingqie 21)were cultivated in a plant factory laboratory under different LED light spectrums.The experim... To enhance the transplants’growth and reduce energy use efficiency,Eggplant(Solanum melongena L.)transplants(cv.Jingqie 21)were cultivated in a plant factory laboratory under different LED light spectrums.The experimental treatments included white plus blue LED lights(R:B=0.5,WB0.5),white LED lights(R:B=0.9,W0.9),white plus red LED lights(R:B=2.7,WR2.7),white plus red plus UV lights(R:B=3.8,WRUV3.8),and red plus blue plus green LED lights(R:B=5.4,RBG5.4).The transplants were grown for 30 d under a light intensity of 250μmol/m2·s and a photoperiod of 16 h/d.The morphological indicators and biomass accumulation of eggplant transplants were significantly higher in the W0.9 treatment compared to the other experimental treatments.The photosynthetic quantum yield in the W0.9 treatment exhibited an increase of over 22%compared to that in the WR2.7 treatment.The shoot dry weight of the W0.9 treatment reached(381±41)mg/plant and the leaf area was(113.3±8.9)cm^(2),indicating a higher health index compared to the other treatments.However,there were no significant differences in the net photosynthetic rate of the leaves among all treatments.The energy yield(EY)of the W0.9 treatment was(37.7±1.8)g/kW·h,which was higher than others.Therefore,considering the high quality of transplants and the maximization of energy use efficiency,the LED light spectrum in the eggplant transplants production was recommended to the white LED light with an R:B ratio of 0.9. 展开更多
关键词 eggplant transplants LED light spectrum GROWTH energy use efficiency
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Comparative Gas Exchange of Ulmus crassifolia (Cedar Elm, Ulmaceae) and Ungnadia speciosa (Mexican Buckey, Sapindaceae) at Ambient and Elevated Levels of Light, CO2 and Temperature
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作者 Matthew B. Grunstra Oscar W. Van Auken 《American Journal of Plant Sciences》 2023年第6期691-709,共19页
Ulmus crassifolia Nutt. (Cedar elm, Ulmaceae) is a tree found in central and east Texas, northern Mexico, east to Florida, and north to southern Missouri and Oklahoma. Ungnadia speciosa Endl. (Mexican-buckeye, Sapinda... Ulmus crassifolia Nutt. (Cedar elm, Ulmaceae) is a tree found in central and east Texas, northern Mexico, east to Florida, and north to southern Missouri and Oklahoma. Ungnadia speciosa Endl. (Mexican-buckeye, Sapindaceae) is a shrub or small tree found in woodlands and savannas of central and western Texas, southern New Mexico and northern Mexico. In central Texas, both species are found in Juniperus ashei/Quercus virginiana woodlands or savannas or also at low density in inter-canopy grassland gaps or patches. Environmental conditions in this area are stressful because of shallow soils, high summer temperatures, and inconsistent low rainfall. Currently, both species have a low density in these areas, and Ulmus crassifolia is usually a tree, while Ungnadia speciosa is a woody understory shrub. This study suggests U. crassifolia and U. speciosa are tolerant or intermediate species, with juveniles starting in shade. Maximum photosynthetic rate (A<sub>max</sub>), dark respiration (R<sub>d</sub>), intercellular CO<sub>2</sub>, light saturation (L<sub>sp</sub>) and water use efficiency significantly increased when light levels and CO<sub>2</sub> concentrations were elevated for both species, but not when temperatures were elevated. Stomatal conductance decreased when the CO<sub>2</sub> concentration doubled, but there were few effects from elevated temperature. These findings suggest that U. speciosa and U. crassifolia should be more common and imply that they will have a higher density in a future high CO<sub>2</sub> environment. 展开更多
关键词 light Response Gas Exchange Photosynthesis Respiration Water use efficiency
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Growth,nutritional quality,and energy use efficiency in two lettuce cultivars as influenced by white plus red versus red plus blue LEDs 被引量:5
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作者 Zhengnan Yan Dongxian He +2 位作者 Genhua Niu Qing Zhou Yinghua Qu 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2020年第2期33-40,共8页
Red plus blue light-emitting diodes(LEDs)are commonly applied in plant factories with artificial lighting due to photosynthetic pigments,which absorb strongly in red and blue light regions of the spectrum.However,plan... Red plus blue light-emitting diodes(LEDs)are commonly applied in plant factories with artificial lighting due to photosynthetic pigments,which absorb strongly in red and blue light regions of the spectrum.However,plants grown under natural environment are used to utilizing broad-wide spectrum by long-term evolution.In order to examine the effects of addition light added in red plus blue LEDs or white LEDs,green and purple leaf lettuces(Lactuca sativa L.cv.Lvdie and Ziya)were hydroponically cultivated for 20 days under white LEDs,white plus red LEDs,red plus blue LEDs,and red plus blue LEDs supplemented with ultraviolet,green or far-red light,respectively.The results indicated that the addition of far-red light in red plus blue LEDs increased leaf fresh and dry weights of green leaf lettuce by 28%and 34%,respectively.Addition of ultraviolet light did not induce any differences in growth and energy use efficiency in both lettuce cultivars,while supplementing green light with red plus blue LEDs reduced the vitamin C content of green leaf lettuce by 44%and anthocyanin content of purple leaf lettuce by 30%compared with red plus blue LEDs,respectively.Spectral absorbencies of purple leaf lettuce grown under red plus blue LEDs supplemented with green light were lower in green light region compared with those grown under red plus blue LEDs,which was associated with anthocyanin contents.White plus red LEDs significantly increased leaf fresh and dry weights of purple leaf lettuce by 25%,and no significant differences were observed in vitamin C and nitrate contents compared with white LEDs.Fresh weight,light and electrical energy use efficiencies of hydroponic green and purple leaf lettuces grown under white plus red LEDs were higher or no significant differences compared with those grown under red plus blue LEDs.In conclusion,white plus red LEDs were suggested to substitute for red plus blue LEDs in hydroponic lettuce(cv.Lvdie and Ziya)production in plant factories with artificial lighting. 展开更多
关键词 plant factory hydroponic lettuce light-emitting diodes(LED) light energy use efficiency artificial lighting absorption spectrum anthocyanin content photosynthetic pigments
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LIGHT INTERCEPTION AND USE EFFICIENCY DIFFER WITH MAIZE PLANT DENSITY IN MAIZE-PEANUT INTERCROPPING 被引量:7
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作者 Qi WANG Zhanxiang SUN +8 位作者 Wei BAI Dongsheng ZHANG Yue ZHANG Ruonan WANG Wopke VAN DER WERF Jochem B.EVERS Tjeerd-Jan STOMPH Jianping GUO Lizhen ZHANG 《Frontiers of Agricultural Science and Engineering》 2021年第3期432-446,共15页
Intercropping increases crop yields by optimizing light interception and/or use efficiency.Although intercropping combinations and metrics have been reported,the effects of plant density on light use are not well docu... Intercropping increases crop yields by optimizing light interception and/or use efficiency.Although intercropping combinations and metrics have been reported,the effects of plant density on light use are not well documented.Here,we examined the light interception and use efficiency in maize-peanut intercropping with different maize plant densities in two row configurations in semiarid dryland agriculture over a two-year period.The field experiment comprised four cropping systems,i.e.,monocropped maize,monocropped peanut,maize-peanut intercropping with two rows of maize and four rows of peanut,intercropping with four rows of maize and four rows of peanut,and three maize plant densities(3.0,4.5 and 6.0 plants m^(-1) row)in both monocropped and intercropping maize.The mean total light interception in intercropping across years and densities was 779 MJ·m^(-2),5.5%higher than in monocropped peanut(737 MJ·m^(-2))and 7.6%lower than in monocropped maize(843 MJ·m^(-2)).Increasing maize density increased light interception in monocropped maize but did not affect the total light interception in the intercrops.Across years the LUE of maize was 2.9 g·MJ–1 and was not affected by cropping system but increased with maize plant density.The LUE of peanut was enhanced in intercropping,especially in a wetter year.The yield advantage of maize-peanut intercropping resulted mainly from the LUE of peanut.These results will help to optimize agronomic management and system design and provide evidence for system level light use efficiency in intercropping. 展开更多
关键词 dryland agriculture light interception light use efficiency maize-peanut intercropping SEMIARID
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Quantifying water stress effect on daily light use efficiency in Mediterranean ecosystems using satellite data
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作者 Sergio Sanchez-Ruiz Alvaro Moreno +4 位作者 Maria Piles Fabio Maselli Arnaud Carrara Steven Running Maria Amparo Gilabert 《International Journal of Digital Earth》 SCIE EI 2017年第6期623-638,共16页
The capacity of six water stress factors(ε′(i))to track daily light use efficiency(ε)of water-limited ecosystems was evaluated.These factors are computed with remote sensing operational products and a limited amoun... The capacity of six water stress factors(ε′(i))to track daily light use efficiency(ε)of water-limited ecosystems was evaluated.These factors are computed with remote sensing operational products and a limited amount of ground data:ε′1 uses ground precipitation and air temperature,and satellite incoming global solar radiation;ε′(2) uses ground air temperature,and satellite actual evapotranspiration and incoming global solar radiation;ε′_(3) uses satellite actual and potential evapotranspiration;ε′_(4) uses satellite soil moisture;ε′_(5) uses satellite-derived photochemical reflectance index;and ε′_(6) uses ground vapor pressure deficit.These factors were implemented in a production efficiency model based on Monteith’s approach in order to assess their performance for modeling gross primary production(GPP).Estimated GPP was compared to reference GPP from eddy covariance(EC)measurements(GPP EC)in three sites placed in the Iberian Peninsula(two open shrublands and one savanna).ε′_(i) were correlated to ε,which was calculated by dividing GPP EC by ground measured photosynthetically active radiation(PAR)and satellite-derived fraction of absorbed PAR.Best results were achieved by ε′(1),ε′(2),ε′(3) and ε′(4) explaining around 40% and 50% of ε variance in open shurblands and savanna,respectively.In terms of GPP,R^(2)≈0.70 were obtained in these cases. 展开更多
关键词 light use efficiency water stress GPP Monteith Mediterranean ecosystems
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新疆古尔班通古特沙漠南缘多枝柽柳光合作用及水分利用的生态适应性 被引量:10
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作者 王珊珊 陈曦 +3 位作者 王权 包安明 曹晓明 李平衡 《生态学报》 CAS CSCD 北大核心 2011年第11期3082-3089,共8页
以新疆古尔班通古特沙漠南缘荒漠绿洲过渡带的建群种多枝柽柳(Tamarix ramosissima)为研究对象,分别在自然状态,模拟降水、遮光处理以及降水和遮光双因子处理下,利用LI-6400光合作用系统和Model 3500植物水分压力室分别测定光合作用和... 以新疆古尔班通古特沙漠南缘荒漠绿洲过渡带的建群种多枝柽柳(Tamarix ramosissima)为研究对象,分别在自然状态,模拟降水、遮光处理以及降水和遮光双因子处理下,利用LI-6400光合作用系统和Model 3500植物水分压力室分别测定光合作用和枝条水势,研究多枝柽柳枝条水势对浅层土壤水分和光照变化的响应,以及在不同条件下的水分利用效率(WUE)和光能利用效率(LUE)的日进程。结果表明:这4种处理方式下,枝条水势随土壤水分的变化没有明显的差异,趋势表现为黎明前枝条水势最高(-1.2 MPa),正午枝条水势最低(-3.2 MPa),太阳落山后枝条水势逐渐升高的趋势;WUE和LUE日变化呈现出近似双峰型抛物线,WUE日变化曲线在11:00和16:00有两个不明显的波峰,LUE日变化曲线在10:00和16:00出现两个明显波峰。当光照发生变化时,遮光处理下的WUE和LUE日变化都较自然状态下的日变化低,分别降低了1.5μmol CO2/mmol H2O的WUE和0.20×10-2μmol CO2/μmol APAR的LUE。研究表明,作为深根系植物的多枝柽柳,生存主要依靠地下水来补给水分,所以浅层土壤水分条件变化没有明显引起光合和蒸腾的响应。而午间光强、高温是构成多枝柽柳光抑制现象的主要原因,这是多枝柽柳长期在荒漠绿洲过渡带形成的对抗环境胁迫的一种表现。 展开更多
关键词 生态适应性 水分利用效率 光能利用效率 多枝柽柳 荒漠绿洲过渡带
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紫花苜蓿光能及叶片水分利用效率影响因子分析 被引量:9
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作者 龙明秀 吴振 +2 位作者 高景慧 高阳 杨宏新 《草业科学》 CAS CSCD 北大核心 2009年第11期73-77,共5页
大田条件下,利用C-340df光合仪,对12个紫花苜蓿Medicago sativa品种(初花期)的净光合速率(Pn)、蒸腾速率(Tr)及生态因子(光合有效辐射、大气温度、大气湿度)和生理因子(胞间CO2浓度、气孔导度、叶温)进行测定,探讨影响其光能利用效率(L... 大田条件下,利用C-340df光合仪,对12个紫花苜蓿Medicago sativa品种(初花期)的净光合速率(Pn)、蒸腾速率(Tr)及生态因子(光合有效辐射、大气温度、大气湿度)和生理因子(胞间CO2浓度、气孔导度、叶温)进行测定,探讨影响其光能利用效率(LUE)和叶片水分利用效率(WUE)的主要因子。结果表明:1)品种胖多单株干质量最高,且LUE、WUE显著高于其他品种(P<0.05),属于高光合、低蒸腾、高水分利用品种;2)影响LUE的主要是生理因子(胞间CO2浓度、气孔导度),而影响WUE的则为外界环境因子(光合有效辐射、大气温度、大气湿度)。 展开更多
关键词 紫花苜蓿 光能利用效率 水分利用效率
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不同氮、钾施肥处理对小麦光能利用率和光化学植被指数(PRI)关系的影响 被引量:12
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作者 吴朝阳 牛铮 +1 位作者 汤泉 黄文江 《光谱学与光谱分析》 SCIE EI CAS CSCD 北大核心 2009年第2期455-458,共4页
光化学植被指数PRI(photochemical reflectance index)为估算植被的光能利用率LUE(light use effi-ciency)提供了一种快速、有效的方法。越来越多的研究关注外界环境对PRI和LUE之间关系的影响,这些因素包括水分含量、CO2浓度等等。文章... 光化学植被指数PRI(photochemical reflectance index)为估算植被的光能利用率LUE(light use effi-ciency)提供了一种快速、有效的方法。越来越多的研究关注外界环境对PRI和LUE之间关系的影响,这些因素包括水分含量、CO2浓度等等。文章选择了不同氮、钾施肥量处理的小麦,测量其LUE和PRI,分析不同肥料处理对二者关系的影响。实验表明,氮、钾施肥量的增加将提高冠层光谱的PRI值和叶片内部叶绿素的含量,在此基础上提高小麦的LUE。对于不同氮、钾处理的小麦,PRI和LUE之间都获得了很好的相关关系,总的相关系数R2分别是0.7104和0.8534。随着氮、钾肥量的增加,PRI和LUE之间的相关性也在增加。对1,2,3份的氮施肥量,相关系数R2分别是0.6020,0.6404和0.8014;钾施肥量为1,2,3份时,R2分别为0.3791,0.6404和0.6769。因此,PRI不仅能够获可靠精度的LUE,并且为监测小麦的肥料状况提供了一种间接方法,这将为田间管理和精细农业提供了必要的参考信息。 展开更多
关键词 光化学植被指数PRI 光能利用率(lue) 氮肥 钾肥 精细农业
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基于MODIS算法的藏北高寒草甸的光能利用效率模拟 被引量:6
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作者 付刚 沈振西 +4 位作者 张宪洲 石培礼 何永涛 武建双 周宇庭 《草业学报》 CSCD 北大核心 2012年第1期239-247,共9页
光能利用效率(light use efficiency,LUE)是指初级生产力与植被冠层所吸收的光合有效辐射(absorbed pho-tosynthetically active radiation,APAR)之比,它反映了植被利用光能的能力。定量化生产力的时空变化是定量化全球碳循环的重要研... 光能利用效率(light use efficiency,LUE)是指初级生产力与植被冠层所吸收的光合有效辐射(absorbed pho-tosynthetically active radiation,APAR)之比,它反映了植被利用光能的能力。定量化生产力的时空变化是定量化全球碳循环的重要研究内容,而LUE作为光能生产力模型中的一个重要参数,是定量化生产力时空变化的基础。因此,定量化全球植被的LUE是定量化全球碳循环的重要组成部分。基于MODIS光能利用效率算法,本研究模拟了2004-2005年藏北高寒草甸生态系统的光能利用效率(LUEMODIS),并用观测的光能利用效率(LUEEC)对模型进行了验证。在MODIS算法中,日最低气温(Tamin)和饱和水汽压亏缺(VPD)分别被用来计算温度胁迫因子(Tscalar)和水分胁迫因子(Wscalar)。相关分析和多重逐步回归分析结果表明,相对于Wscalar,Tscalar更能够解释观测的LUE的季节变化。2004和2005年的模拟值分别高估了约14.97%和16.57%的观测值,但配对T检验显示模拟值和观测值差异不显著,即基于MODIS的LUE算法在模拟藏北高寒草甸LUE方面具有较高的精度。相关分析表明,观测的LUE与Tamin的相关性好于观测的LUE与平均气温的相关性,这表明在反应藏北高寒草甸生态系统LUE的季节变异方面,Tamin优于平均气温。总之,基于MODIS算法的LUE模型能够比较准确地定量化藏北高寒草甸生态系统的LUE。 展开更多
关键词 光能利用效率 高寒草甸 MODIS 藏北高原
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黑麦草杂交F_2代光合及水分利用效率研究 被引量:5
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作者 龙明秀 高景慧 +2 位作者 李波 吴振 高阳 《草地学报》 CAS CSCD 北大核心 2009年第2期151-156,共6页
在晴朗无云天气下,利用C-340 df便携式光合测定仪分别于分蘖期、拔节期和初花期对4个黑麦草品种(百盛Lolium perenne L.cv.Bison,邦德Lolium multiflorum L.cv.Abundant,多福L.perenne cv.Tove,卓越L.perenne cv.Eminent)及其杂交F2代... 在晴朗无云天气下,利用C-340 df便携式光合测定仪分别于分蘖期、拔节期和初花期对4个黑麦草品种(百盛Lolium perenne L.cv.Bison,邦德Lolium multiflorum L.cv.Abundant,多福L.perenne cv.Tove,卓越L.perenne cv.Eminent)及其杂交F2代的光合蒸腾速率、生态因子(光合有效辐射、大气温度、大气湿度、叶温)和生理因子(胞间二氧化碳浓度、气孔导度)进行测定,并同期测定叶片相对含水量,旨在从F2代中筛选出高光合、高水分利用率株系,并探讨影响黑麦草光合及水分利用效率的主要生理生态因子。结果表明:121个F2代株系中,F2-2(百盛×多福)的净光合速率最高、蒸腾效率最低(P<0.05),为F2代中高光合、高水分利用率的最优株系;F2-2(百盛×多福)相关性分析结果表明,蒸腾作用显著影响黑麦草叶片光能利用率和水分利用效率(P<0.05),气孔导度是影响黑麦草叶片光能利用率和水分利用效率的主要生理因子,可作为筛选高光合作物的生理指标。 展开更多
关键词 黑麦草 杂交F2代 水分利用效率 光能利用率
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利用光化学反射植被指数估算光能利用率研究的进展 被引量:14
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作者 陈晋 唐艳鸿 +1 位作者 陈学泓 杨伟 《遥感学报》 EI CSCD 北大核心 2008年第2期331-337,共7页
植被光能利用率(LUE)是估计植被初级生产力(GPP)和净初级生产力(NPP)模型的一个重要输入,准确地估计LUE对于生态学研究有重要的意义。由于LUE随环境的变化关系十分复杂,现有的LUE估算模型过于粗糙简单,而通过遥感直接估计LUE将会更加可... 植被光能利用率(LUE)是估计植被初级生产力(GPP)和净初级生产力(NPP)模型的一个重要输入,准确地估计LUE对于生态学研究有重要的意义。由于LUE随环境的变化关系十分复杂,现有的LUE估算模型过于粗糙简单,而通过遥感直接估计LUE将会更加可靠。研究表明,光化学反射植被指数(PRI)与LUE有很好的相关性,故PRI在利用遥感估计LUE方面具有极大的潜力。但是很多研究也发现了PRI-LUE的关系不够稳健,受许多因素的干扰,比如物种构成、冠层结构及大气等。因此,PRI的广泛应用还需要更多的研究。本文首先介绍了PRI的定义及PRI随LUE变化的生理机制,再综述了一些利用遥感手段建立PRI-LUE关系的例子,然后分析了影响PRI-LUE关系的各种干扰因素,最后对PRI研究取得的成果、存在的问题以及发展前景作了总结。 展开更多
关键词 遥感 光化学反射植被指数 光能利用率 叶片尺度 冠层尺度 干扰因素
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散射辐射对青藏高原高寒草地总初级生产力模拟的影响 被引量:5
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作者 任小丽 何洪林 +4 位作者 张黎 葛蓉 曾纳 李攀 于贵瑞 《环境科学研究》 EI CAS CSCD 北大核心 2017年第12期1898-1907,共10页
太阳辐射的散射组分能够增强植被冠层LUE(light use efficiency,光能利用率),因此需要在生产力模型中显式地加入散射辐射的影响,从而更准确地模拟植被冠层光合作用.以青藏高原高寒草地为研究对象,改进光能利用率模型,增加散射辐射模块,... 太阳辐射的散射组分能够增强植被冠层LUE(light use efficiency,光能利用率),因此需要在生产力模型中显式地加入散射辐射的影响,从而更准确地模拟植被冠层光合作用.以青藏高原高寒草地为研究对象,改进光能利用率模型,增加散射辐射模块,利用站点通量观测数据估计模型关键参数;结合区域尺度气象数据和遥感数据,模拟了2003—2008年青藏高原高寒草地区域尺度GPP(gross primary production,总初级生产力),并量化了GPP模拟的不确定性,进而通过分析模型改进前后GPP空间分布及其不确定性的差异量化了散射辐射的作用.结果表明:考虑散射辐射对LUE的影响后,模型参数优化效果明显提升,青藏高原高寒草地GPP的模拟效果得到提升;2003—2008年青藏高原高寒草地GPP模拟值呈现东南部较大,西北部较小的空间格局,与不考虑散射辐射的结果一致,但GPP平均值由312.3 g/(m^2·a)增至341.7 g/(m^2·a),增幅约9.4%,说明不考虑散射辐射会低估青藏高原高寒草地GPP;GPP模拟值不确定性的空间分布与不考虑散射辐射的结果一致,但是平均不确定性大小有所降低,从9.15%降至8.66%.研究显示,若在青藏高原高寒草地的GPP模拟中不考虑散射辐射,虽不会影响其空间格局,但会低估GPP模拟值的大小,同时增加其不确定性. 展开更多
关键词 散射辐射 光能利用率 总初级生产力 不确定性分析
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光化学植被指数估算植物光能利用率的研究进展 被引量:13
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作者 吴朝阳 牛铮 《植物生态学报》 CAS CSCD 北大核心 2008年第3期734-740,共7页
应用遥感技术可以建立光化学植被指数(Photochemical reflectance index,PRI)和光能利用效率(Lightuseef-ficiency,LUE)的关系,LUE可用来估算净初级生产力(Net primary productivity,NPP)。因而,用PRI估算植物的LUE,为估算NPP提供了新... 应用遥感技术可以建立光化学植被指数(Photochemical reflectance index,PRI)和光能利用效率(Lightuseef-ficiency,LUE)的关系,LUE可用来估算净初级生产力(Net primary productivity,NPP)。因而,用PRI估算植物的LUE,为估算NPP提供了新的方法,弥补了以往以经验模式通过温度和水分对最大LUE的胁迫来获取实际LUE的不足,进而可提高NPP的估算精度。研究表明:PRI和LUE在叶片、冠层和景观尺度上都有着很好的相关性,但是随着尺度的变化,很多因素会对这一关系产生干扰,如水分、氮元素含量、叶面积指数和太阳高度角等,从而削弱了PRI和LUE的关系。该文对建立PRI和LUE的关系过程中的影响因素进行了分析,并指出今后这一研究领域中可能改进的方面,主要包括526nm和545nm处的反射率对531nm处的反射率的作用机制、PRI随LUE的饱和现象、PRI和LUE关系的时间效应以及利用PRI估算LUE的尺度效应。 展开更多
关键词 光化学植被指数(PRI) 光能利用效率(lue) 影响因素
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冠层光能利用率的叶绿素荧光光谱探测 被引量:9
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作者 程占慧 刘良云 《遥感学报》 EI CSCD 北大核心 2010年第2期356-371,共16页
设计了玉米生长期日变化试验,同步获取玉米冠层光谱和通量观测数据,探究从植被发射荧光光谱角度实现植被光能利用率可靠反演的可能性。运用涡度相关法获取群体生态系统净生产力(NEP),通过呼吸作用拟合得到冠层总初级生产力(GPP);在此基... 设计了玉米生长期日变化试验,同步获取玉米冠层光谱和通量观测数据,探究从植被发射荧光光谱角度实现植被光能利用率可靠反演的可能性。运用涡度相关法获取群体生态系统净生产力(NEP),通过呼吸作用拟合得到冠层总初级生产力(GPP);在此基础上结合吸收光合有效辐射(APAR)获取冠层光能利用率(LUE);同时,利用叶绿素荧光光谱分离算法,提取了光合作用叶绿素荧光绝对强度和相对强度。结论表明,植被发射荧光光谱与光合有效辐射(PAR)显著正相关,760nm波段荧光与PAR的复相关系数R2在0.99以上;叶绿素荧光绝对强度与NEP和GPP显著正相关,荧光和NEP对环境日变化具有类似的响应特征;688nm和760nm植被发射的叶绿素荧光相对强度与LUEGPP存在可靠负相关关系,即叶绿素荧光强度越大,光能利用率越低。同时,通过比较几种植被指数与各种光合参量的相关性表明,叶绿素荧光能够更好的跟踪植被光合状态的变化,更适宜于植被光能利用率的探测。 展开更多
关键词 光谱 叶绿素荧光 光能利用率 初级生产力
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植物光化学植被指数对叶片生化组分参数的敏感性 被引量:14
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作者 吴朝阳 牛铮 《中国科学院研究生院学报》 CAS CSCD 2008年第3期346-354,共9页
光化学植被指数PRI定义为531nm和570nm处反射率的归一化植被指数,这一指数能够成功的估算叶片尺度、冠层尺度和景观尺度的光能利用率LUE,进而可以提高净初级生产力NPP的估算精度,因而PRI有着广阔的应用前景.但是,很多干扰因素会对建立PR... 光化学植被指数PRI定义为531nm和570nm处反射率的归一化植被指数,这一指数能够成功的估算叶片尺度、冠层尺度和景观尺度的光能利用率LUE,进而可以提高净初级生产力NPP的估算精度,因而PRI有着广阔的应用前景.但是,很多干扰因素会对建立PRI和LUE的关系产生影响,并且随着尺度的变化,干扰因素也在变化.因此,研究不同尺度下各种干扰因素对PRI的影响就显得更加必要和紧迫.基于这一点,利用PROSPECT和SAIL模型分别对叶片尺度和冠层尺度影响PRI的干扰因素进行了敏感性分析.结果表明,在叶片尺度上,叶片的PRI对叶肉结构参数N和叶绿素浓度(Cab)变化有着较高的敏感性,对于叶片的干物质浓度(Cm)和等效水厚(Cw)的变化敏感性弱;在冠层尺度上,叶面积指数、叶倾角分布、太阳高度角以及观测天顶角都会引起冠层PRI的变化.土壤类型对冠层的PRI不起决定作用,冠层自身的性质才是冠层尺度PRI的决定因素. 展开更多
关键词 光化学植被指数 光能利用率 叶片尺度 冠层尺度 敏感性
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四个种源粉防己夏季光合特性比较 被引量:1
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作者 赖晓莲 郭圣茂 +3 位作者 丁菲 张丽霞 廖兴国 陈兰兰 《北方园艺》 CAS 北大核心 2014年第20期156-160,共5页
以2年生粉防己为试材,对江西永丰、遂川、高安和乐平4个种源粉防己的光合生理特性及其与环境因子的相关性进行了研究。结果表明:4个种源粉防己的净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)日变化均呈双峰曲线;胞间CO2浓度(Ci)日变化... 以2年生粉防己为试材,对江西永丰、遂川、高安和乐平4个种源粉防己的光合生理特性及其与环境因子的相关性进行了研究。结果表明:4个种源粉防己的净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)日变化均呈双峰曲线;胞间CO2浓度(Ci)日变化呈不规则的"W"型;4个种源之间光合特性存在差异;Pn日均值依次为:永丰种源>遂川种源>乐平种源>高安种源;除了Ci午后平均值比午前平均值略有增加之外,其它光合参数午后平均值均有较大幅度下降;影响粉防己Pn的主要指标有Tr、Gs、Ci;影响Tr的主要指标有Gs、Ci、光合有效辐射(PAR)。 展开更多
关键词 粉防己 净光合速率(Pn) 蒸腾速率(Tr) 水分利用效率(WUE) 光能利用率(lue)
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