Chinese Journal of Plant Ecology >
Dynamics and regulations of ecosystem light use efficiency in a broad-leaved Korean pine mixed forest, Changbai Mountain
# Co-first authors
Online published: 2015-12-31
Aims Ecosystem light use efficiency (LUE) reflects the ability of CO2 uptake and light utilization via photosynthesis, which is a key parameter in ecosystem models to evaluate ecosystem productivity. The objectives of this study were to: (1) compare the differences of LUE derived from different methods; (2) elucidate the seasonal dynamics of LUE and its regulatory factors; and (3) evaluate the maximum LUE (LUEmax) and its variability based on eddy-covariance (EC) flux.Methods Using the flux data from an EC tower during 2003-2005 at a broad-leaved Korean pine (Pinus koraiensis) mixed forest, Changbai Mountain, two types of LUE indicators were generated from: 1) the apparent quantum yield (ε) estimated with rectangular hyperbolic curve, and 2) the ecological light use efficiency (LUEeco) calculated as the ratio between gross ecosystem productivity (GEP) and photosynthetically-active radiation (Q).Important findings The seasonal variation of ε and LUEeco appeared a unimodal pattern within a year, with the variations significantly dominated by soil surface temperature and Normalized Difference Vegetation Index (NDVI). A positive correlation between GEP and LUE was found for both ε and LUEeco, with the effect of Q on LUE relatively weak. The increase in diffusion radiation appeared favorable for enhanced LUE. Generally, there was a significant positive relationship between ε and LUEeco, while ε was higher than LUEeco, especially during the mid-season. The annual maximum value of ε and LUEeco was (0.087 ± 0.003) and (0.040 ± 0.002) μmol CO2·μmol photon-1 over the three years, respectively. The interannual variability of LUEmax for ε and LUEeco was 4.17% and 4.25%, respectively, with a maximum difference of >8%, likely resulted from considerable uncertainty in model simulations. Our results indicated that the inversion and optimization of maximum LUE should be taken seriously in the application of LUE models.
ZHANG Lei-Ming,CAO Pei-Yu,ZHU Ya-Ping,LI Qing-Kang,ZHANG Jun-Hui,WANG Xiao-Ling,DAI Guan-Hua,LI Jin-Gong . Dynamics and regulations of ecosystem light use efficiency in a broad-leaved Korean pine mixed forest, Changbai Mountain[J]. Chinese Journal of Plant Ecology, 2015 , 39(12) : 1156 -1165 . DOI: 10.17521/cjpe.2015.0112
| [1] | Baldocchi D (2014). Measuring fluxes of trace gases and energy between ecosystems and the atmosphere—The state and future of the eddy covariance method.Global Change Biology, 20, 3600-3609. |
| [2] | Barr JG, Engel V, Fuentes JD, Fuller DO, Kwon H (2013). Modeling light use efficiency in a subtropical mangrove forest equipped with CO2 eddy covariance.Biogeosciences, 10, 2145-2158. |
| [3] | Chen J, Shen MG, Kato T (2009). Diurnal and seasonal variations in light-use efficiency in an alpine meadow ecosystem: Causes and implications for remote sensing.Journal of Plant Ecology, 2, 173-185. |
| [4] | Chen TX, van der Werf GR, Dolman AJ, Groenendijk M (2011). Evaluation of cropland maximum light use efficiency using eddy flux measurements in North America and Europe.Geophysical Research Letters, 38, doi: 10.1029/2011GL047533. |
| [5] | Clement RJ, Jarvis PG, Moncrieff JB (2012). Carbon dioxide exchange of a Sitka spruce plantation in Scotland over five years.Agricultural and Forest Meteorology, 153, 106-123. |
| [6] | Dengel S, Grace J (2010). Carbon dioxide exchange and canopy conductance of two coniferous forests under various sky conditions.Oecologia, 164, 797-808. |
| [7] | Falge E, Baldocchi D, Olson R, Anthoni P, Aubinet M, Bernhofer C, Burba G, Ceulemans R, Clement R, Dolman H, Granier A, Gross P, Grünwald T, Hollinger D, Jensen NO, Katul G, Keronen P, Kowalski A, Lai CT, Law BE, Meyers T, Moncrieff J, Moors E, Munger JW, Pilegaard K, Rannik Ü, Rebmann C, Suyker A, Tenhunen J, Tu K, Verma S, Vesala T (2001). Gap filling strategies for defensible annual sums of net ecosystem exchange.Agricultural and Forest Meteorology, 107, 43-69. |
| [8] | Garbulsky MF, Peñuelas J, Papale D, Ardö J, Goulden ML, Kiely G, Richardson AD, Rotenberg E, Veenendaal EM, Filella I (2010). Patterns and controls of the variability of radiation use efficiency and primary productivity across terrestrial ecosystems.Global Ecology and Biogeography, 19, 253-267. |
| [9] | Gilmanov TG, Aires L, Barcza Z, Baron VS, Belelli L, Beringer J, Billesbach D, Bonal D, Bradford J, Ceschia E, Cook D, Corradi C, Frank A, Gianelle D, Gimeno C, Gruenwald T, Guo HQ, Hanan N, Haszpra L, Heilman J, Jacobs A, Jones MB, Johnson DA, Kiely G, Li SG, Magliulo V, Moors E, Nagy Z, Nasyrov M, Owensby C, Pinter K, Pio C, Reichstein M, Sanz MJ, Scott R, Soussana JF, Stoy PC, Svejcar T, Tuba Z, Zhou GS (2010). Productivity, respiration, and light-response parameters of world grassland and agroecosystems derived from flux-tower measurements.Rangeland Ecology & Management, 63, 16-39. |
| [10] | Gu LH, Fuentes JD, Shugart HH, Staebler RM, Black TA (1999). Responses of net ecosystem exchanges of carbon dioxide to changes in cloudiness: Results from two North American deciduous forests.Journal of Geophysical Research-Atmospheres, 104, 31421-31434. |
| [11] | Guan DX, Wu JB, Zhao XS, Han SJ, Yu GR, Sun XM, Jin CJ (2006). CO2 fluxes over an old, temperate mixed forest in northeastern China.Agricultural and Forest Meteorology, 137, 138-149. |
| [12] | Hao ZQ, Li BH, Zhang J, Wang XG, Ye J, Yao XL (2008). Broad-leaved Korean pine (Pinus koraiensis) mixed forest plot in Changbaishan (CBS) of China: Community composition and structure. Journal of Plant Ecology (Chinese Version), 32, 238-250. |
| [12] | (in Chinese with English abstract) [郝占庆, 李步杭, 张健, 王绪高, 叶吉, 姚晓琳 (2008). 长白山阔叶红松林样地(CBS): 群落组成与结构. 植物生态学报, 32, 238-250.] |
| [13] | Jenkins JP, Richardson AD, Braswell BH, Ollinger SV, Hollinger DY, Smith ML (2007). Refining light-use efficiency calculations for a deciduous forest canopy using simultaneous tower-based carbon flux and radiometric measurements.Agricultural and Forest Meteorology, 143, 64-79. |
| [14] | Kanniah KD, Beringer J, North P, Hutley L (2012). Control of atmospheric particles on diffuse radiation and terrestrial plant productivity: A review.Progress in Physical Geography, 36, 209-237. |
| [15] | Li HQ, Zhang FW, Li YN, Cao GM, Zhao L, Zhao XQ (2014). Seasonal and interannual variations of ecosystem photosynthetic features in an alpine dwarf shrubland on the Qinghai-Tibetan Plateau, China.Photosynthetica, 52, 321-331. |
| [16] | Lasslop G, Reichstein M, Papale D, Richardson AD, Arneth A, Barr A, Stoy P, Wohlfahrt G. (2010). Separation of net ecosystem exchange into assimilation and respiration using a light response curve approach: Critical issues and global evaluation.Global Change Biology, 16, 187-208. |
| [17] | Mercado LM, Bellouin N, Sitch S, Boucher O, Huntingford C, Wild M, Cox PM (2009). Impact of changes in diffuse radiation on the global land carbon sink.Nature, 458, 1014-1017. |
| [18] | Monteith JL (1977). Climate and the efficiency of crop production in Britain.Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences, 281, 277-294 |
| [19] | Papale D, Reichstein M, Aubinet M, Canfora E, Bernhofer C, Kutsch W, Longdoz B, Rambal S, Valentini R, Vesala T, Yakir D (2006). Towards a standardized processing of net ecosystem exchange measured with eddy covariance technique: Algorithms and uncertainty estimation.Biogeosciences, 3, 571-583. |
| [20] | Polley HW, Phillips RL, Frank AB, Bradford JA, Sims PL, Morgan JA, Kiniry JR (2011). Variability in light-use efficiency for gross primary productivity on Great Plains grasslands.Ecosystems, 14, 15-27. |
| [21] | Reichstein M, Fagle E, Baldocchi D, Palale D, Aubinet M, Berbigier P, Bernhofer C, Buchmann N, Gilmanov T, Granier A, Grünwald T, Havránková K, Ilvesniemi H, Janous D, Knohl A, Laurila T, Lohila A, Loustau D, Matteucci G, Meyers T, Miglietta F, Ourcival JM, Pumpanen J, Rambal S, Rotenberg E, Sanz M, Tenhunen J, Seufert G, Vaccari F, Vesala T, Yakir D, Valentini R (2005). On the separation of net ecosystem exchange into assimilation and ecosystem respiration: Review and improved algorithm.Global Change Biology, 11, 1424-1439. |
| [22] | Reindl DT, Beckman WA, Duffie JA (1990). Diffuse fraction correlations.Solar Energy, 45, 1-7. |
| [23] | Ruimy A, Jarvis PG, Baldocchi DD, Saugier B (1995). CO2 fluxes over plant canopies and solar radiation: A review.Advances in Ecological Research, 26, 1-68. |
| [24] | Schwalm CR, Black TA, Amiro BD, Arain MA, Barr AG, Bourque CPA, Dunn AL, Flanagan LB, Giasson MA, Lafleur PM, Margolis HA, McCaughey JH, Orchansky AL, Wofsy SC (2006). Photosynthetic light use efficiency of three biomes across an eastwest continental-scale transect in Canada.Agricultural and Forest Meteorology, 140, 269-286. |
| [25] | Turner DP, Urbanski S, Bremer D, Wofsy SC, Meyers T, Gower ST, Gregory M (2003). A cross-biome comparison of daily light use efficiency for gross primary production.Global Change Biology, 9, 383-395. |
| [26] | Wang HS, Jia GS, Fu CB, Feng JM, Zhao TB, Ma ZG (2010). Deriving maximal light use efficiency from coordinated flux measurements and satellite data for regional gross primary production modeling.Remote Sensing of Environment, 114, 2248-2258. |
| [27] | Wu JB, Xiao XM, Guan DX, Shi TT, Jin CJ, Han SJ (2009). Estimation of the gross primary production of an old-growth temperate mixed forest using eddy covariance and remote sensing.International Journal of Remote Sensing, 30, 463-479. |
| [28] | Xiao XM, Boles S, Liu JY, Zhuang DF, Liu ML (2002). Characterization of forest types in Northeastern China, using multi-temporal SPOT-4 VEGETATION sensor data.Remote Sensing of Environment, 82, 335-348. |
| [29] | Xiao XM, Hollinger D, Aber J, Goltz M, Davidson EA, Zhang QY, Moore III B (2004). Satellite-based modeling of gross primary production in an evergreen needleleaf forest.Remote Sensing of Environment, 89, 519-534. |
| [30] | Yu GR, Wen XF, Sun XM, Tanner BD, Lee X, Chen JY (2006). Overview of ChinaFLUX and evaluation of its eddy covariance measurement.Agricultural and Forest Meteorology, 137, 125-137. |
| [31] | Yu GR, Zhang LM, Sun XM, Fu YL, Wen XF, Wang QF, Li SG, Ren CY, Song X, Liu YF, Han SJ, Yan JH (2008). Environmental controls over carbon exchange of three forest ecosystems in eastern China.Global Change Biology, 14, 2555-2571. |
| [32] | Yuan WP, Cai WW, Xia JZ, Chen JQ, Liu SG, Dong WJ, Merbold L, Law B, Arain A, Beringer J, Bernhofer C, Black A, Blanken PD, Cescatti A, Chen Y, Francois L, Gianelle D, Janssens IA, Jung M, Kato T, Kiely G, Liu D, Marcolla B, Montagnani L, Raschi A, Roupsard O, Varlagin A, Wohlfahrt G (2014). Global comparison of light use efficiency models for simulating terrestrial vegetation gross primary production based on the LaThuile database. Agricultural and Forest Meteorology, 192-193, 108-120. |
| [33] | Yuan WP, Liu SG, Zhou GS, Zhou GY, Tieszen LL, Baldocchi D, Bernhofer C, Gholz H, Goldstein AH, Goulden ML, Hollinger DY, Hu YM, Law BE, Stoy PC, Vesala T, Wofsy SC (2007). Deriving a light use efficiency model from eddy covariance flux data for predicting daily gross primary production across biomes.Agricultural and Forest Meteorology, 143, 189-207. |
| [34] | Zhang LM, Yu GR, Sun XM, Wen XF, Ren CY, Fu YL, Li QK, Li ZQ, Liu YF, Guan DX, Yan JH (2006). Seasonal variations of ecosystem apparent quantum yield (α) and maximum photosynthesis rate (Pmax) of different forest ecosystems in China.Agricultural and Forest Meteorology, 137, 176-187. |
| [35] | Zhang M, Yu GR, Zhang LM, Sun XM, Wen XF, Han SJ (2009). Effects of solar radiation on net ecosystem exchange of broadleaved-Korean pine mixed forest in Changbai Mountain, China. Journal of Plant Ecology (Chinese Version), 33, 270-282. |
| [35] | (in Chinese with English abstract) [张弥, 于贵瑞, 张雷明, 孙晓敏, 温学发, 韩士杰 (2009). 太阳辐射对长白山阔叶红松林净生态系统碳交换的影响. 植物生态学报, 33, 270-282.] |
| [36] | Zhang M, Yu GR, Zhang LM, Sun XM, Wen XF, Han SJ, Yan JH (2010). Impact of cloudiness on net ecosystem exchange of carbon dioxide in different types of forest ecosystems in China.Biogeosciences, 7, 711-722. |
| [37] | Zhang Q, Zhang L, He HL, Han SJ, Li YN, Ouyang Z, Shi PL, Wang HM, Hao YB, Zhang YP, Yan JH (2014). Inversion of the maximum light use efficiency using eddy covariance flux observations.Quaternary Science, 34, 743-751. |
| [37] | (in Chinese with English abstract) [张强, 张黎, 何洪林, 韩士杰, 李英年, 欧阳竹, 石培礼, 王辉民, 郝彦宾, 张一平, 闫俊华 (2014). 基于涡度相关通量数据的植被最大光能利用率反演研究. 第四纪研究, 34, 743-751.] |
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