Seasonal Photosynthesis in Fertilized and Nonfertilized Loblolly Pine

Net photosynthesis (P n ) of loblolly pine (Pinus taeda L.) foliage was monitored monthly in 14 yr old stands under near-ambient conditions over an entire year in upper and lower crowns and in both nonfertilized stands and stands receiving nutrient amendments for six consecutive years. Air temperature, humidity, vapor pressure deficit (VPD), photosynthetic photon flux density (PPFD), and plant water potential were monitored concurrently with P n. Foliar nitrogen (N) concentration was also monitored. The effect of fertilization on P n was inconsistent and generally not significant. Rates were consistently higher in the upper crown compared to the lower crown primarily due to variable light intensity. Multiple linear regression analysis shows that PPFD and VPD explain between 56% and 64% of the variability in foliar P n , depending on the treatment. Little or no correlation between foliar N concentration and P n was found, despite greater N concentrations in fertilized foliage, suggesting that fertilization does not enhance the photosynthetic capacity of loblolly pine foliage over the long term. Substantial amounts of carbon were fixed on measurement days during the winter season, even after freezing nights. Predicted light response curves indicate that foliar photo- synthetic capacities are similar year-round, and gross primary productivity estimates (GPP) indicate that over 20% of the annual carbon fixation occurred during the nongrowing season. FOR. SCI. 50(1):1-9.

[1]  H. L. Allen,et al.  Monthly leaf area index estimates from point-in-time measurements and needle phenology for Pinus taeda , 2003 .

[2]  James F. Reynolds,et al.  GROSS PRIMARY PRODUCTIVITY IN DUKE FOREST: MODELING SYNTHESIS OF CO2 EXPERIMENT AND EDDY -FLUX DATA , 2001 .

[3]  D. Ellsworth Seasonal CO(2) assimilation and stomatal limitations in a Pinus taeda canopy. , 2000, Tree physiology.

[4]  J. L. Chambers,et al.  Thinning, fertilization, and crown position interact to control physiological responses of loblolly pine. , 1999, Tree physiology.

[5]  H. L. Allen,et al.  Leaf Area and Above- and Belowground Growth Responses of Loblolly Pine to Nutrient and Water Additions , 1998, Forest Science.

[6]  J. P. Barnett,et al.  Temporal and spatial patterns of net photosynthesis in 12-year-old loblolly pine five growing seasons after thinning , 1997 .

[7]  T. C. Hennessey,et al.  Acclimation of loblolly pine (Pinus taeda) foliage to light intensity as related to leaf nitrogen availability , 1997 .

[8]  S. Zarnoch,et al.  Seasonal trends of light‐saturated net photosynthesis and stomatal conductance of loblolly pine trees grown in contrasting environments of nutrition, water and carbon dioxide , 1997 .

[9]  H. L. Allen,et al.  Effects of carbon dioxide, fertilization, and irrigation on photosynthetic capacity of loblolly pine trees. , 1996, Tree physiology.

[10]  D. Campbell,et al.  Seasonal changes in photosystem II organisation and pigment composition in Pinus sylvestris , 1995, Planta.

[11]  W. Cropper,et al.  Influence of climate and fertilization on net photosynthesis of mature slash pine. , 1994, Tree physiology.

[12]  T. Hinckley,et al.  Effects of foliar nitrogen concentration on photosynthesis and water use efficiency in Douglas-fir. , 1993, Tree physiology.

[13]  J. Seiler,et al.  Physiological and Growth Responses of Eight-Year-Old Loblolly Pine Stands to Thinning , 1991 .

[14]  H. L. Allen,et al.  Leaf Area, Stemwood Growth, and Nutrition Relationships in Loblolly Pine , 1988, Forest Science.

[15]  T. C. Hennessey,et al.  Physiology and genetics of tree growth response to moisture and temperature stress: an examination of the characteristics of loblolly pine (Pinus taeda L.). , 1987, Tree physiology.

[16]  J. A. Fites,et al.  Stomatal and nonstomatal limitations to net photosynthesis in Pinus taeda L. under different environmental conditions. , 1986, Tree physiology.

[17]  R. Teskey,et al.  Seasonal patterns of net photosynthesis of loblolly pine from diverse origins , 1986 .

[18]  F. Ledig,et al.  Seasonal Patterns of CO2 Exchange in the Shoot and Root of Loblolly Pine Seedlings , 1981, Botanical Gazette.

[19]  H. Smolander,et al.  Relationship between net photosynthesis and nitrogen in Scots pine: Seasonal variation in seedlings and shoots , 2004, Plant and Soil.

[20]  Kurt H. Johnsen,et al.  Stand-Scale Correspondence in Empirical and Simulated Labile Carbohydrates in Loblolly Pine , 2001, Forest Science.

[21]  W. Smith,et al.  Interrelationships among light, photosynthesis and nitrogen in the crown of mature Pinus contorta ssp. latifolia. , 1999, Tree physiology.