02060nam a2200253 a 450000100080000000500110000800800410001902000180006010000180007824501130009626000370020930000110024650001630025752012370042065000210165765000180167865000140169665000100171065000120172065000230173265000140175565000200176970000170178916228931998-01-13       1984    bl uuuu     u01u1 u    #d  a90-247-2949-11 aDURYEA, M. L.  aSeedling physiology and reforestation sucess. Proceedings of the phisiology working group technical session.  aDordrecht: Martinus Nyhoffc1984  a326 p.  aProceedings of the Physiology Working Group Technical session, Societyof American Foresters National Conventional, Portland, Oregon, USA, October 16-20, 1983.  aTissue culture and vegetative propagation. Forests of the future. Propagation and Preservation of Elms via tissue culture systems. Seed. New forests from better seeds: the role of seed physiology. Manipulatingloblolly pine(pinus taeda L.) seed germination with simulated moistureand temperature stress. Bareroot. Altering seedling physiology to improve reforestation success. Seed source lifting windows improve reforestation success. Container. Physiology research made forestation with  container-grown seedlings successful. Relating seedling physiology to survival and growth in container-grown southern pines. The influence of species and stocktype selection on stand establishment: an ecophysiological perspective. Characterization of the internal water relations of loblolly pine seedlings in responseto nursery cultural treatments: implications for reforestation success. Vegetation management. Growth response and physiology of tree seedlings as affected by weed control. Interference between greenleaf manzanita(Arctostaphylos patula) and ponderosa pine(Pinus ponderosa). Nutrition management. Nutrition management: A physiological basis for yeld improvement. Mycorrhizae and reforestation succes in the oak-hickory region.  aplant physiology  areforestation  aseedlings  atrees  aÁrvore  aFisiologia Vegetal  aPlântula  aReflorestamento1 aBROWN, G. N.