Carbon dioxide exchange in a cool-temperate evergreen coniferous forest over complex topography in Japan during two years with contrasting climates

We investigated carbon dioxide (CO2) exchange and its environmental response during two years with contrasting climate (2006 and 2007) in a cool-temperate mixed evergreen coniferous forest dominated by Japanese cedar (Cryptomeria japonica) and Japanese cypress (Chamaecyparis obtusa). The study, which was conducted in a mountainous region of central Japan, used the eddy-covariance technique. Our results (crosschecked using the common u* approach and van Gorsel’s alternative approach) showed that annual gross primary production (GPP) and ecosystem respiration (RE) were at least 6% higher in the dry year than in the wet year, whereas net ecosystem exchange (NEE) was similar in both years. Without soil water stress, strong light stress or seasonality of plant area index during most of the study period, the forest had high metabolic activity. GPP and RE differed greatly between the two years, especially in spring (April–May) and summer (July–September), respectively. The spring GPP difference (>20%) was influenced by different winter air temperatures and snow melt timing, which controlled photosynthetic capacity in spring, and by different spring light intensities. The annual NEE differed depending on the evaluation method used, but the mean 2-year NEE estimated by the u* threshold approach [−3.39 ± 0.11 (SD) MgC ha−1 year−1] appears more reasonable in comparison with results from other forests.

[1]  M. Aubinet Eddy covariance CO2 flux measurements in nocturnal conditions: an analysis of the problem. , 2008, Ecological applications : a publication of the Ecological Society of America.

[2]  Xuhui Lee,et al.  On micrometeorological observations of surface-air exchange over tall vegetation , 1998 .

[3]  Larry Mahrt,et al.  Eddy Asymmetry in the Sheared Heated Boundary Layer , 1991 .

[4]  Takanori Shimizu,et al.  Transpiration and canopy conductance at two slope positions in a Japanese cedar forest watershed , 2008 .

[5]  John Moncrieff,et al.  Seasonal variation of carbon dioxide, water vapor, and energy exchanges of a boreal black spruce forest , 1997 .

[6]  Peter D. Blanken,et al.  Annual cycles of water vapour and carbon dioxide fluxes in and above a boreal aspen forest , 1996 .

[7]  J. Pereira,et al.  Carbon dioxide exchange above a Mediterranean C3/C4 grassland during two climatologically contrasting years , 2008 .

[8]  Frank Berninger,et al.  Carbon balance of different aged Scots pine forests in Southern Finland , 2004 .

[9]  W. Oechel,et al.  FLUXNET: A New Tool to Study the Temporal and Spatial Variability of Ecosystem-Scale Carbon Dioxide, Water Vapor, and Energy Flux Densities , 2001 .

[10]  M. Schelhaas,et al.  Closing the Carbon Budget of a Scots Pine forest in the Netherlands , 2004 .

[11]  Peter D. Blanken,et al.  Partitioning forest carbon fluxes with overstory and understory eddy-covariance measurements: A synthesis based on FLUXNET data , 2007 .

[12]  Wenjun Chen,et al.  Increased carbon sequestration by a boreal deciduous forest in years with a warm spring , 2000 .

[13]  A. Nik,et al.  CO2 exchange of a tropical rainforest at Pasoh in Peninsular Malaysia , 2008 .

[14]  J. C. Kaimal,et al.  Atmospheric boundary layer flows , 1994 .

[15]  H. Schmid,et al.  Multi-year convergence of biometric and meteorological estimates of forest carbon storage , 2008 .

[16]  D. Baldocchi Assessing the eddy covariance technique for evaluating carbon dioxide exchange rates of ecosystems: past, present and future , 2003 .

[17]  Minoru Gamo,et al.  Temporal and spatial variations in the seasonal patterns of CO2 flux in boreal, temperate, and tropical forests in East Asia , 2008 .

[18]  J. Lloyd,et al.  On the temperature dependence of soil respiration , 1994 .

[19]  C.J.T. Spitters,et al.  Separating the diffuse and direct component of global radiation and its implications for modeling canopy photosynthesis Part II. Calculation of canopy photosynthesis , 1986 .

[20]  Corinna Rebmann,et al.  Methodology for data acquisition, storage, and treatment , 2003 .

[21]  A. Grelle,et al.  Addressing the influence of instrument surface heat exchange on the measurements of CO2 flux from open‐path gas analyzers , 2008 .

[22]  R. Monson,et al.  The contribution of advective fluxes to net ecosystem exchange in a high-elevation, subalpine forest. , 2008, Ecological applications : a publication of the Ecological Society of America.

[23]  Monique Y. Leclerc,et al.  Footprint prediction of scalar fluxes from analytical solutions of the diffusion equation , 1990 .

[24]  T. Meyers,et al.  Correction Of Eddy-Covariance Measurements Incorporating Both Advective Effects And Density Fluxes , 2000, Boundary-Layer Meteorology.

[25]  R. McMillen,et al.  An eddy correlation technique with extended applicability to non-simple terrain , 1988 .

[26]  H. Schmid,et al.  An initial intercomparison of micrometeorological and ecological inventory estimates of carbon exchange in a mid‐latitude deciduous forest , 2002 .

[27]  M. Aubinet,et al.  Long term carbon dioxide exchange above a mixed forest in the Belgian Ardennes , 2001 .

[28]  M. Aubinet,et al.  Comparing CO2 Storage and Advection Conditions at Night at Different Carboeuroflux Sites , 2005 .

[29]  J. Finnigan,et al.  A comment on the paper by Lee (1998): “On micrometeorological observations of surface-air exchange over tall vegetation” , 1999 .

[30]  A. Dolman,et al.  Sonic anemometer (co)sine response and flux measurement I. The potential for (co)sine error to affect sonic anemometer-based flux measurements , 2003 .

[31]  M. Molen,et al.  Correction of sonic anemometer angle of attack errors , 2006 .

[32]  T. Foken,et al.  Tools for quality assessment of surface-based flux measurements , 1996 .

[33]  Dean Vickers,et al.  Quality Control and Flux Sampling Problems for Tower and Aircraft Data , 1997 .

[34]  J. Kaimal,et al.  Another look at sonic thermometry , 1991 .

[35]  Eric Ceschia,et al.  The carbon balance of a young Beech forest , 2000 .

[36]  Toshiyuki Ohtsuka,et al.  Biometric Based Carbon Flux Measurements and Net Ecosystem Production (NEP) in a Temperate Deciduous Broad-Leaved Forest Beneath a Flux Tower , 2007, Ecosystems.

[37]  Nobuko Saigusa,et al.  Gross primary production and net ecosystem exchange of a cool-temperate deciduous forest estimated by the eddy covariance method , 2002 .

[38]  Charles T. Garten,et al.  Separating root and soil microbial contributions to soil respiration: A review of methods and observations , 2000 .

[39]  Akihiko Ito,et al.  The regional carbon budget of East Asia simulated with a terrestrial ecosystem model and validated using AsiaFlux data , 2008 .

[40]  W. Oechel,et al.  Energy balance closure at FLUXNET sites , 2002 .

[41]  M. Monsi Uber den Lichtfaktor in den Pflanzengesellschaften und seine Bedeutung fur die Stoffproduktion , 1953 .

[42]  E. K. Webb,et al.  Correction of flux measurements for density effects due to heat and water vapour transfer , 1980 .

[43]  J. Goudriaan,et al.  SEPARATING THE DIFFUSE AND DIRECT COMPONENT OF GLOBAL RADIATION AND ITS IMPLICATIONS FOR MODELING CANOPY PHOTOSYNTHESIS PART I. COMPONENTS OF INCOMING RADIATION , 1986 .

[44]  Minoru Gamo,et al.  Spatial distribution of carbon balance in forest ecosystems across East Asia , 2008 .

[45]  Hiroyuki Muraoka,et al.  Satellite Ecology (SATECO)—linking ecology, remote sensing and micrometeorology, from plot to regional scale, for the study of ecosystem structure and function , 2008, Journal of Plant Research.

[46]  S. Kaneko,et al.  Biometric and eddy-covariance-based estimates of carbon balance for a warm-temperate mixed forest in Japan , 2008 .

[47]  Guirui Yu,et al.  Seasonal variation in carbon dioxide exchange over a 200-year-old Chinese broad-leaved Korean pine mixed forest , 2006 .

[48]  M. Nieuwenhuis,et al.  Inventory and eddy covariance-based estimates of annual carbon sequestration in a Sitka spruce (Picea sitchensis (Bong.) Carr.) forest ecosystem , 2007, European Journal of Forest Research.

[49]  R. Leuning,et al.  Nocturnal carbon efflux: reconciliation of eddy covariance and chamber measurements using an alternative to the u.-threshold filtering technique , 2007 .

[50]  Mi-Sun Lee,et al.  A chamber system with automatic opening and closing for continuously measuring soil respiration based on an open-flow dynamic method , 2006, Ecological Research.

[51]  Yanhong Tang,et al.  Spatial variability and major controlling factors of CO2 sink strength in Asian terrestrial ecosystems: evidence from eddy covariance data , 2008 .

[52]  雅一 鈴木,et al.  森林における年降水量の農地・都市域との違い―日本全域を対象として― , 2005 .

[53]  H. Koizumi,et al.  Estimation of the Number of Sampling Points Required for the Determination of Soil CO 2 Efflux in Two Types of Plantation in a Temperate Region , 2009 .

[54]  C. Bernhofer,et al.  The Influence of Advection on the Short Term CO2-Budget in and Above a Forest Canopy , 2003 .

[55]  Mi-Sun Lee,et al.  Temporal variation in CO2 efflux from soil and snow surfaces in a Japanese cedar (Cryptomeria japonica) plantation, central Japan , 2008, Ecological Research.

[56]  Frans T. M. Nieuwstadt,et al.  Temperature measurement with a sonic anemometer and its application to heat and moisture fluxes , 1983 .

[57]  K. Nakane,et al.  Spatial variability of soil respiration in a larch plantation: estimation of the number of sampling points required , 2003 .

[58]  Ü. Rannik,et al.  Gap filling strategies for defensible annual sums of net ecosystem exchange , 2001 .

[59]  M. Aubinet,et al.  Horizontal and Vertical Co2 Advection In A Sloping Forest , 2003 .

[60]  Nobuko Saigusa,et al.  Inter-annual variability of carbon budget components in an AsiaFlux forest site estimated by long-term flux measurements , 2005 .

[61]  Eric A. Davidson,et al.  Minimizing artifacts and biases in chamber-based measurements of soil respiration , 2002 .

[62]  Markus Reichstein,et al.  Linking flux network measurements to continental scale simulations: ecosystem carbon dioxide exchange capacity under non‐water‐stressed conditions , 2007 .

[63]  William J. Massman,et al.  Handbook of micrometeorology : a guide for surface flux measurement and analysis , 2004 .

[64]  Ryuichi Hirata,et al.  CO2 and water vapor exchange of a larch forest in northern Japan , 2003 .

[65]  Hans Tømmervik,et al.  Prediction of the distribution of Arctic‐nesting pink‐footed geese under a warmer climate scenario , 2007 .

[66]  Y. Kosugi,et al.  Three years of carbon and energy fluxes from Japanese evergreen broad-leaved forest , 2005 .

[67]  Yoshiko Kosugi,et al.  CO2 exchange in a temperate Japanese cypress forest compared with that in a cool-temperate deciduous broad-leaved forest , 2005, Ecological Research.

[68]  Alan G. Barr,et al.  Surface energy balance closure by the eddy-covariance method above three boreal forest stands and implications for the measurement of the CO2 flux , 2006 .

[69]  W. Massman,et al.  Eddy covariance flux corrections and uncertainties in long-term studies of carbon and energy exchanges , 2002 .

[70]  H. Jones,et al.  Plants and Microclimate. , 1985 .

[71]  M. Molen,et al.  Sonic anemometer (co)sine response and flux measurement: II. The effect of introducing an angle of attack dependent calibration , 2004 .

[72]  A. Miyata,et al.  A review of tower flux observation sites in Asia , 2009, Journal of Forest Research.

[73]  S. Wofsy,et al.  Physiological responses of a black spruce forest to weather , 1997 .

[74]  Y. Goto,et al.  Characteristics of CO2 flux over a forest on complex topography , 2003 .

[75]  W. Eugster,et al.  Year‐round measurements of net ecosystem CO2 flux over a montane larch forest in Mongolia , 2005 .

[76]  S. Wofsy,et al.  Factors Controlling Long- and Short-Term Sequestration of Atmospheric CO2 in a Mid-latitude Forest , 2001, Science.

[77]  Toshiyuki Ohtsuka,et al.  Biometric-based estimation of net ecosystem production in a mature Japanese cedar (Cryptomeria japonica) plantation beneath a flux tower , 2010, Journal of Plant Research.

[78]  T. Kumagai,et al.  Carbon Dioxide Exchange over a Bornean Tropical Rainforest , 2005 .

[79]  John Finnigan,et al.  Coordinate Systems and Flux Bias Error , 2004 .

[80]  Ryuichi Hirata,et al.  Seasonal and interannual variations in carbon dioxide exchange of a temperate larch forest , 2007 .

[81]  D. Baldocchi ‘Breathing’ of the terrestrial biosphere: lessons learned from a global network of carbon dioxide flux measurement systems , 2008 .

[82]  Hans Peter Schmid,et al.  Biometric and eddy-covariance based estimates of annual carbon storage in five eastern North American deciduous forests , 2002 .

[83]  国際食糧農業協会 Forests and forestry in Japan , 1997 .