Luquillo Bibliography
] Filters: Author is Silver, W. L. [Clear All Filters]
(2008). Simple three-pool model accurately describes patterns of long-term litter decomposition in divers climates.
Global Change Biology.. 14, 2636–2660. Abstract
(2012). Response to Disturbance.
(, Ed.).A Caribbean Forest Tapestry: The Multidimensional Nature of Disturbance and Response. Abstract
(2011). Beyond C and N: How the microbial energy economy couples elemental cycles in diverse ecosystems.
Frontiers in Ecology and the Environment. 9, 44-52.
(2006). Iron reduction and soil phosphorus solubilization in humid tropical forests soils: the roles of labile carbon pools and an electron shuttle compound.
Biogeochemistry. 78, 67-84.
(2005). Ecophysiological and biogeochemical responses to atmospheric change.
(, Ed.).Tropical forests and global atmospheric change. 57-65.
(2004). Some ecophysiological and biogeochemical responses of tropical forests to atmospheric change.
Philosophical Transactions of the Royal Society. 359(Series B), 463-476.
(2010). Cross-biome transplants of plant litter show decomposition models extend to a broader climatic range but lose predictability at the decadal time scale.
Global Change Biology. 16, 1744-1761.
(2010). Effects of chronic nitrogen additions on above- and belowground carbon dynamics in two tropical forests.
Biogeochemistry. 104, 203-225.
(2011). Changes in microbial community characteristics and soil organic matter with nitrogen additions in two tropical forests.
Ecology. 92, 621-632.
(2009). Controls on long-term root and leaf litter decomposition in Neotropical forests.
Global Change Biology. 15, 1339-1355.
(2010). The Response of Heterotrophic Activity and Carbon Cycling to Nitrogen Additions and Warming in Two Tropical Soils.
Global Change Biology. 16, 2555-2572..
(2010). Microbial community response to recurring changes in soil redox status.
Environmental Microbiology. 12, 3137-3149.
(2010). Microbial ecology drives coupled iron – carbon biogeochemistry in tropical forest ecosystems.
Ecology. 91, 2604-2612.
(2009). Long-term patterns of mass loss during the decomposition of leaf and fine root litter: An intersite comparison.
Global Change Biology. 15(5), 1320-1338. Abstract
(In Press). Atypical soil carbon distribution across a tropical steepland forest catena.
Catena. 87, 391-397. Abstract
(2000). Soil-atmosphere nitrogen oxide fluxes: effects of root disturbance.
Journal of Geophysical Research. 105, 693-698.
(2011). Temporal dynamics in soil oxygen and trace gases in two tropical rain forests.
Ecosystems. 14, 171-182.
(2009). Effects of carbon additions on iron reduction and phosphorus availability in a humid tropical forest soil..
Soil Biology and Biochemistry. 41, 1969-1702.
(2002). Resilience of tropical wet and dry forests in Puerto Rico.
(, Ed.).Resilience and behavior of large-scale systems. SCOPE Report 60. 195-225.
(2004). Biomass and nutrient dynamics of restored neotropical forests.
Water, Air and Soil Pollution. 4, 731-746.
(2001). Managed ecosystems deserve greater attention.
Bulletin of the Ecological Society of America. 82(1), 91-93.
(2012). Ecological Paradigms for the Tropics Old Questions and Continuing Challenges.
(, Ed.).A Caribbean forest tapestry: the multidimensional nature of disturbance and response. Abstract
(2008). Chemical and mineralogical control of soil carbon storage during tropical reforestation.
Geoderma. 143, 49-62.
(2007). Long term patterns in reforestation of tropical pastures: plant community composition and aboveground biomass accumulation.
Ecological Applications. 17, 828-839.
(2009). Soil carbon gain and loss during 80 years of reforestation of tropical pastures.
Global Change Biology. 15, 1587-1594.
