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Predisposition of trees by air pollutants to low temperatures and moisture stress.
1995
Chappelka A.H. | Freer Smith P.H.
Effects of acid rain on growth and nutrient concentrations in Scots pine and Norway spruce seedlings grown in a nutrient-rich soil.
1995
Back J. | Huttunen S. | Turunen M. | Lamppu J.
Effects of sulfur dioxide on growth, photosynthesis and enzyme activities of Chinese guger-tree seedlings.
1994
Sheu B.H.
Effects of air filtration on spring wheat grown in open-top field chambers at a rural site. I. Effect on growth, yield and dry matter partitioning.
1992
Temmerman L. de | Vandermeiren K. | Guns M.
Sensitivity of three leguminous crops to O(3) as influenced by different stages of growth and development.
1991
Kasana M.S.
Three-year growth responses of Pinus taeda L. to simulated rain chemistry, soil magnesium status, and ozone.
1992
Edwards N.T. | Edwards G.L. | Kelly J.M. | Taylor G.E. Jr.
Effects of ambient rain chemistry on field-grown radish - an exploratory approach by multiple linear regression.
1992
Kostka Rick R. | Manning W.J.
Acclimatory responses in Scots pine needles during three years of growth at elevated CO2 and temperature
2002
Luomala, E.M. (Finnish Forest Research Institute, Suonenjoki (Finland). Suonenjoki Research Station) | Lattinen, K. | Kellomaki, S. | Vapaavuori, E.
We studied the effects of elevated CO2 and elevated temperature on photosynthesis and composition of Scots pine needles during three years of treatments, started in August 1996. CO2 and temperature were elevated day- and year- round in closed-top chambers, which were constructed around naturally regenerated Scots pine trees growing at a nitrogen poor site. Our aim was to study, whether there is photosynthetic acclimation during three years of growth at elevated CO2 and elevated temperature in Scots pine, and whether acclimation response is connected to the aging of the needles
Show more [+] Less [-]Effects of carbon dioxide and ozone on growth and biomass allocation in Pinus ponderosa
2002
Olszyk, D. (US EPA, St. Corvallis, (USA). Western Ecology Division) | Johnson, M. | Tingey, D. | King, G. | Storm, M. | Plocher, M.
The future productivity of forests will be affected by combinations of anthropogenic stresses including elevated atmospheric CO2 and O3. Because the productivity of forests, will be in part, determined by the growth of young trees, we evaluated the responses of Pinus ponderosa seedlings to ambient or elevated CO2 and/or high O3. Shoot growth and whole plant biomass were evaluated for seedlings growing under the CO2 and O3 treatments for 3 years in sun-lit mesocosms with ambient temperature and humidity. This study indicated the potential for CO2 but not O3 effects on Pinus ponderosa seedlings under realistic field conditions as used in this study
Show more [+] Less [-]The changes of Scots pine (Pinus sylvestris L.) tree stem and crown increment under decreased environmental pollution
2002
Augustaitis, A. | Juknys, R. | Kliucius, E. | Augustaitiene, I. (Lithuanian University of Agriculture, Kaunas (Lithuania). Faculty of Forest)
The main objective of this paper is to analyse regeneration regularities of damaged trees during the period of decreased environmental pollution load. Investigations concentrated on Scots pine tree height and radial increment, branch length increment, amount of branches on the verticil and needle and whole crown mass. Model trees were selected in 3 stands located on 3.5, 10 and 21 km from the plant according to their development classes and condition
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