Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/decomposition-and-nutrient-exchange-of-litter-in-an-alluvial-swamp-Tb4sl0fZUR
References (16)
-
W. Patrick, M. Tusneem (1972)
Nitrogen Loss from Flooded SoilEcology, 53
-
E. Kormondy (1968)
WEIGHT LOSS OF CELLULOSE AND AQUATIC MACROPHYTES IN A CAROLINA BAYLimnology and Oceanography, 13
-
J. Olson (1963)
Energy Storage and the Balance of Producers and Decomposers in Ecological SystemsEcology, 44
-
V. Kilmer, D. Nearpass (1960)
The determination of available sulfur in soils.Soil Science Society of America Journal, 24
-
F. Golley (1960)
An Index to the Rate of Cellulose Decomposition in the SoilEcology, 41
-
M. Witkamp, M. Frank (1969)
LOSS OF WEIGHT, $sup 60$Co, AND $sup 137$Cs FROM TREE LITTER IN THREE SUBSYSTEMS OF A WATERSHED.Environmental Science & Technology, 3
-
G. Likens, Herbert Bormann (1970)
Chemical Analyses of Plant Tissues from the Hubbard Brook Ecosystem in New Hampshire -
R. Howarth, S. Fisher (1976)
Carbon, nitrogen, and phosphorus dynamics during leaf decay in nutrient‐enriched stream microecosystemsFreshwater Biology, 6
-
J. Gosz, G. Likens, F. Bormann (1973)
Nutrient Release From Decomposing Leaf and Branch Litter in the Hubbard Brook Forest, New HampshireEcological Monographs, 43
-
K. Suberkropp, G. Godshalk, M. Klug (1976)
Changes in the Chemical Composition of Leaves During Processing in a Woodland StreamEcology, 57
-
N. Kaushik, H. Hynes (1968)
Experimental Study on the Role of Autumnshed Leaves in Aquatic EnvironmentsJournal of Ecology, 56
-
K. Bocock (1963)
Changes in the Amount of Nitrogen in Decomposing Leaf Litter of Sessile Oak (Quercus Petraea)Journal of Ecology, 51
-
R. Barsdate (1974)
Phosphorus cycle of model ecosystems : significance for decomposer food chains and effect of bacterial grazersOikos, 25
-
K. Reddy, W. Patrick (1975)
Effect of alternate aerobic and anaerobic conditions on redox potential, organic matter decomposition and nitrogen loss in a flooded soilSoil Biology & Biochemistry, 7
-
P. Attiwill (1968)
The Loss of Elements from Decomposing LitterEcology, 49
-
W. McDowell, S. Fisher (1976)
Autumnal Processing of Dissolved Organic Matter in a Small Woodland Stream EcosystemEcology, 57
- Publisher
- Wiley
- Copyright
- © Society for Community Research and Action
- ISSN
- 0012-9658
- eISSN
- 1939-9170
- DOI
- 10.2307/1939009
- Publisher site
- See Article on Publisher Site
Abstract
Weight loss from cellulose sheets was measured monthly at three sites (river, swamp floor, natural levee) of a North Caroline swamp forest dominated by Nyssa aquatica. Rates of loss were significantly different seasonally and between sites. Both temperature and moisture appeared to be important in controlling decomposition rates. For Nyssa leaves, dry weight decreased to 25% of original after 48 wk while twigs fell to 80% of original after 56 wk. Three modes of nutrient exchange were found: (1) accumulation of N, Ca, and Fe by both leaves and twigs, with stronger leaf accumulation of these elements; (2) strong leaf accumulation with rapid twig loss of P; and (3) losses by both leaves and twigs of K and Mg. Final atomic ratios of C:N and C:P were about 15:1 and 500:1, respectively, suggesting that P may be in short supply. The significance of nutrient accumulation is that there was little or not net release of P, N, Ca, and Fe from autumn leaf fall until tree growth in the spring. Conservation and recycling of nutrients appear to be tight even in swamps open to flooding during tree dormancy.
Journal
Ecology – Wiley
Published: May 1, 1977