TY - JOUR
T1 - The response of lianas to 20 yr of nutrient addition in a Panamanian forest
AU - Schnitzer, Stefan A.
AU - Estrada-Villegas, Sergio
AU - Wright, S. Joseph
N1 - Funding Information:
We thank Maria García‐León for coordinating the logistics and data entry for the liana censuses; Boris Bernal, Salomé Pérez, Abelino Valdés, and Severino Valdés for conducting the liana censuses; and Omar Hernandez, Sebastian Bernal, and Milton García for maintaining the NPK experiment. We also thank two anonymous reviewers for helpful comments that improved the manuscript. Financial support for the Gigante Peninsula fertilization project was provided by the Andrew W. Mellon Foundation and the Smithsonian Institution Scholarly Studies and Restricted Endowment Programs. Financial support for the liana censuses was provided by National Science Foundation grant NSF‐IOS 1558093.
Publisher Copyright:
© 2020 by the Ecological Society of America
PY - 2020/12
Y1 - 2020/12
N2 - Over the past two decades, liana density and basal area have been increasing in many tropical forests, which has profound consequences for forest diversity and functioning. One hypothesis to explain increasing lianas is elevated nutrient deposition in tropical forests resulting from fossil fuels, agricultural fertilizer, and biomass burning. We tested this hypothesis by surveying all lianas ≥1 cm in diameter (n = 3,967) in 32 plots in a fully factorial nitrogen (N), phosphorus (P), and potassium (K) addition experiment in a mature tropical forest in central Panama. We conducted the nutrient-addition experiment from 1998 until present and we first censused lianas in 2013 and then again in 2018. After 20 yr of nutrient addition (1998–2018), liana density, basal area, and rarefied species richness did not differ significantly among any of the nutrient-addition and control treatments. Moreover, nutrient addition in the most recent 5 yr of the experiment did not affect liana relative growth, recruitment, or mortality rates. From 2013 until 2018, liana density, basal area, and species richness increased annually by 1.6%, 1.4%, and 2.4%, respectively. Nutrient addition did not influence these increases. Our findings indicate that nutrient deposition does not explain increasing lianas in this tropical forest. Instead, increases in tree mortality and disturbance, atmospheric carbon dioxide, drought frequency and severity, and hunting pressure may be more likely explanations for the increase in lianas in tropical forests.
AB - Over the past two decades, liana density and basal area have been increasing in many tropical forests, which has profound consequences for forest diversity and functioning. One hypothesis to explain increasing lianas is elevated nutrient deposition in tropical forests resulting from fossil fuels, agricultural fertilizer, and biomass burning. We tested this hypothesis by surveying all lianas ≥1 cm in diameter (n = 3,967) in 32 plots in a fully factorial nitrogen (N), phosphorus (P), and potassium (K) addition experiment in a mature tropical forest in central Panama. We conducted the nutrient-addition experiment from 1998 until present and we first censused lianas in 2013 and then again in 2018. After 20 yr of nutrient addition (1998–2018), liana density, basal area, and rarefied species richness did not differ significantly among any of the nutrient-addition and control treatments. Moreover, nutrient addition in the most recent 5 yr of the experiment did not affect liana relative growth, recruitment, or mortality rates. From 2013 until 2018, liana density, basal area, and species richness increased annually by 1.6%, 1.4%, and 2.4%, respectively. Nutrient addition did not influence these increases. Our findings indicate that nutrient deposition does not explain increasing lianas in this tropical forest. Instead, increases in tree mortality and disturbance, atmospheric carbon dioxide, drought frequency and severity, and hunting pressure may be more likely explanations for the increase in lianas in tropical forests.
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U2 - 10.1002/ecy.3190
DO - 10.1002/ecy.3190
M3 - Research Article
C2 - 32893876
AN - SCOPUS:85091803104
SN - 0012-9658
VL - 101
JO - Ecology
JF - Ecology
IS - 12
M1 - e03190
ER -