Luquillo Bibliography
] Filters: Author is Silver, W. L. [Clear All Filters]
(2000). Variations in belowground carbon storage and soil CO2 flux rates along a wet tropical climate gradient.
Biotropica. 32, 614-624.
(2008). Trends in above and belowground carbon with forest regrowth after agricultural abandonment in the Neotropics.
(, Ed.).Post-agricultural Succession in the Neotropics. 22-72.
(2011). Temporal dynamics in soil oxygen and trace gases in two tropical rain forests.
Ecosystems. 14, 171-182.
(2008). Suppression of methanogenesis by dissimilatory Fe(III)-reducing bacteria in tropical rain forest soils: implications for ecosystem methane flux.
Global Change Biology. 14, 413-422.
(2012). Strong spatial variability in trace gasdynamics following experimental drought in a humid tropical forest.
Global Biogeochemical Cycles. 26, GB3005.
(2004). Some ecophysiological and biogeochemical responses of tropical forests to atmospheric change.
Philosophical Transactions of the Royal Society. 359(Series B), 463-476.
(2000). Soil-atmosphere nitrogen oxide fluxes: effects of root disturbance.
Journal of Geophysical Research. 105, 693-698.
(In Press). Soil redox dynamics and biogeochemistry along a tropical elevation gradient.
Ecological Bulletins.
(1999). Soil oxygen availability and biogeo chemistry along rainfall and topographic gradients in upland wet tropical forest soils.
Biogeochemistry. 44, 301-328.
(2002). Soil organic carbon in tropical forests of the U.S..
(, Ed.).The Potential of U.S. Forest Soils to Sequester Carbon and Mitigate the Greenhouse Effect. 363-382.
(2009). Soil carbon gain and loss during 80 years of reforestation of tropical pastures.
Global Change Biology. 15, 1587-1594.
(2008). Simple three-pool model accurately describes patterns of long-term litter decomposition in divers climates.
Global Change Biology.. 14, 2636–2660. Abstract
(2008). Retention of phosphorous in highly weathered soils under a lowland Amazonian forest ecosystem..
Biogeosciences . 113(G4), 1-11. Abstract
(2012). Response to Disturbance.
(, Ed.).A Caribbean Forest Tapestry: The Multidimensional Nature of Disturbance and Response. Abstract
(2010). The Response of Heterotrophic Activity and Carbon Cycling to Nitrogen Additions and Warming in Two Tropical Soils.
Global Change Biology. 16, 2555-2572..
(2002). Resilience of tropical wet and dry forests in Puerto Rico.
(, Ed.).Resilience and behavior of large-scale systems. SCOPE Report 60. 195-225.
(2000). The potential for carbon sequestration through reforestation of abandoned tropical agricultural and pasture lands.
Restoration Ecology. 8(4), 394-407.
(1998). The potential effects of elevated CO2 and climate change on tropical forest biogeochemical cycling.
Climatic change. 39, 337-361.
(2008). Plant and microbial controls on nitrogen retention and loss in a humid tropical forest.
Ecology. 89, 3030-3040.
(2005). Oxygen effects on methane production and oxidation in humid tropical forest soils.
Global Change Biology. 11, 1283-1297.
(2007). Nutrient Cycling and Climate Change in Tropical Forests.
(, Ed.).Tropical Rainforest Responses to Climatic Change. 295-316.
(1994). Nutrient availability in a montane wet tropical forest: spatial patterns and methodological considerations.
Plant and Soil. 164, 129-145.
(In Press). Nitrogen cycling in upper montane tropical forests: is there evidence for limitation to nitrogen mineralization?.
(, Ed.).Forests in the Mist: Science for Conserving and Managing Tropical Montane Cloud Forests.
(2005). Nitrogen cycling in tropical plantation forests: potential controls on nitrogen retention.
Ecological Applications. 15(5), 1604-1614.
(2010). Microbial ecology drives coupled iron – carbon biogeochemistry in tropical forest ecosystems.
Ecology. 91, 2604-2612.
