01993nas a2200145 4500008004100000245009000041210006900131300001300200490000700213520145200220653002001672100001701692700002001709856011801729 1986 eng d00aSeasonal water relations of three gallery forest hardwood species in northeast Kansas0 aSeasonal water relations of three gallery forest hardwood specie a687 -6960 v323 a
Field and laboratory studies were used to evaluate several water relations characteristics for saplings of three species: hackberry (Celtis occidentalis), a mesic, late successional tree, and bur and chinquapin oak (Quercus macrocarpa and Q. muehlenbergii), more xeric, early successional trees growing in a northeast Kansas gallery forest understory during a dry summer. For all species, maximum stomatal conductance (gwv) (8.9-9.5 mm*s-1) was recorded early in the season when soil moisture was greatest. Seasonally, sunlit leaves generally had significantly higher gwv than shaded leaves. Both gwv and leaf water potential decreased during the season in each species, with minimum leaf water potential values ranging from - 2.13 to -2.48 MPa. Seasonally, leaf water potential remained consistently higher than the osmotic potential at zero turgor for each species (minimum values of zero turgor ranged from -2.61 to -3.02 MPa). Hackberry, the most mesic species, experienced the largest seasonal decrease in gwv in both shaded and sunlit leaves (69% and 78% reduction, respectively). Moreover, in contrast to the two oaks, a significant seasonal decline in 600 h leaf water potential was shown for hackberry. By season's end, hackberry had the lowest gwv and leaf water potential suggesting that this species was better able to utilize late season precipitation. Additional key words: Quercus, Celtis, ecophysiology, prairie, drought
10aWater relations1 aAbrams, M.D.1 aKnapp, Alan, K. uhttp://lter.konza.ksu.edu/content/seasonal-water-relations-three-gallery-forest-hardwood-species-northeast-kansas