Influence of soil redox potential on nitrogen uptake and growth of wetland oak seedlings

A study was conducted to determine ammonium nitrogen uptake by cherrybark oak and overcup oak as affected by soil redox conditions. Seedlings of the two species were grown in laboratory microcosms for 60 days in soil suspensions incubated at three separate Eh levels (+560, +340, and +175 mV). In bot...

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Bibliographic Details
Published in:	Journal of plant nutrition Vol. 21; no. 4; pp. 757 - 768
Main Authors:	DeLaune, R.D, Pezeshki, S.R, Lindau, C.W
Format:	Journal Article
Language:	English
Published:	Philadelphia, NJ Taylor & Francis Group 01-01-1998 Taylor & Francis
Subjects:	ABSORCION DE SUSTANCIAS NUTRITIVAS ABSORPTION DE SUBSTANCES NUTRITIVES AERATION Agronomy. Soil science and plant productions AIREACION AMMONIUM COMPOUNDS AMMONIUM NITROGEN Animal and plant ecology Animal, plant and microbial ecology Autoecology AZOTE Biological and medical sciences CHIMIE DU SOL COMPOSE DE L'AMMONIUM COMPUESTOS DE AMONIO CONTENIDO DE NITROGENO CRECIMIENTO CROISSANCE Economic plant physiology FEUILLE FOTOSINTESIS Fundamental and applied biological sciences. Psychology GROWTH HOJAS LEAVES Mineral nutrition NITROGEN NITROGEN CONTENT NITROGENO NUTRIENT UPTAKE Nutrition. Photosynthesis. Respiration. Metabolism PHOTOSYNTHESE PHOTOSYNTHESIS Plants and fungi PLANTULAS PLANTULE POTENCIAL REDOX POTENTIEL REDOX QUERCUS QUERCUS FALCATA QUERCUS LYRATA QUIMICA DEL SUELO REDOX POTENTIAL SEEDLINGS SOIL CHEMISTRY TENEUR EN AZOTE TERRE HUMIDE TIERRAS HUMEDAS WETLANDS Louisiana United States North America America Ammonium Growth Hydromorphic soil Forest soil Inorganic element Dicotyledones Angiospermae Hardwood forest tree Quercus lyrata Nitrogen fertilizer Wetland Labelled compound Ammonium Chlorides Subtropical zone Laboratory study Nutrition Interspecific comparison Microcosm Property of soil Clay soil Ecophysiology Fagaceae Nitrogen Edaphic factor Biogeochemistry Quercus falcata var. pagodifolia Forestry Spermatophyta Redox potential Soil plant relation Photosynthesis Physicochemical properties NUTRIENT UPTAKE
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Summary:	A study was conducted to determine ammonium nitrogen uptake by cherrybark oak and overcup oak as affected by soil redox conditions. Seedlings of the two species were grown in laboratory microcosms for 60 days in soil suspensions incubated at three separate Eh levels (+560, +340, and +175 mV). In both species, uptake of added 15N labeled nitrogen (N) (NH4Cl) and photosynthesis activity decreased with decreasing soil redox potentials. Net photosynthesis in cherrybark oak decreased by 72.9 and 100% in response to the +340 and + 175 mV treatments as compared to control plants, respectively. Similarly, net photosynthetic rates were reduced by 53.7 and 65.8% in overcup oak under +340 and +175 mV treatments, respectively. A significant correlation between net photosynthesis and leaf 15N content was found in cherrybark oak (r=0.866, P=0.01) but not in overcup oak (r=0.648, p0.05). However, in overcup oak, the correlation between net photosynthesis and total leaf N content was significant (r=0.911, P=0.01). Maximum 15N uptake was measured at the highest soil redox level (+560 mV). Uptake of 15N in cherrybark oak decreased from a maximum of 1.83 mg under aerated (+560 mV) treatment to 0.11 mg under reduced conditions (+175 mV). Similarly, 15N uptake in overcup oak decreased from 2.37 mg under the +560 mV treatment to 0.28 mg under +175 mV treatment. Greater uptake of soil and fertilizer nitrogen was measured under the soil redox conditions in which adequate plant growth was recorded. Moderately reducing soil redox conditions (+340 and +175 mV) adversely affected both plant nitrogen uptake and net photosynthetic activities of the two species
Bibliography:	F61 P33 1997066634 K01
ISSN:	0190-4167 1532-4087
DOI:	10.1080/01904169809365440