Fine‐root responses to fertilization reveal multiple nutrient limitation in a lowland tropical forest

Questions remain as to which soil nutrients limit primary production in tropical forests. Phosphorus (P) has long been considered the primary limiting element in lowland forests, but recent evidence demonstrates substantial heterogeneity in response to nutrient addition, highlighting a need to under...

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Published in	Ecology (Durham) Vol. 96; no. 8; pp. 2137 - 2146
Main Authors	Wurzburger, Nina, Wright, S. Joseph
Format	Journal Article
Language	English
Published	United States Ecological Society of America 01.08.2015
Subjects	biomass Fertilizers fine roots Forests lowland forests Mycorrhizae mycorrhizal fungi nitrogen Nitrogen - administration & dosage Nitrogen - pharmacology nitrogen content nutrient content nutrients Panama phosphorus Phosphorus - administration & dosage Phosphorus - pharmacology Plant Development - drug effects Plant Roots - drug effects Plant Roots - growth & development potassium Potassium - administration & dosage Potassium - pharmacology primary productivity Soil Microbiology soil nutrients species diversity symbionts tree growth Tropical Climate tropical forests Panama
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Abstract	Questions remain as to which soil nutrients limit primary production in tropical forests. Phosphorus (P) has long been considered the primary limiting element in lowland forests, but recent evidence demonstrates substantial heterogeneity in response to nutrient addition, highlighting a need to understand and diagnose nutrient limitation across diverse forests. Fine‐root characteristics including their abundance, functional traits, and mycorrhizal symbionts can be highly responsive to changes in soil nutrients and may help to diagnose nutrient limitation. Here, we document the response of fine roots to long‐term nitrogen (N), P, and potassium (K) fertilization in a lowland forest in Panama. Because this experiment has demonstrated that N and K together limit tree growth and P limits fine litter production, we hypothesized that fine roots would also respond to nutrient addition. Specifically we hypothesized that N, P, and K addition would reduce the biomass, diameter, tissue density, and mycorrhizal colonization of fine roots, and increase nutrient concentration in root tissue. Most morphological root traits responded to the single addition of K and the paired addition of N and P, with the greatest response to all three nutrients combined. The addition of N, P, and K together reduced fine‐root biomass, length, and tissue density, and increased specific root length, whereas root diameter remained unchanged. Nitrogen addition did not alter root N concentration, but P and K addition increased root P and K concentration, respectively. Mycorrhizal colonization of fine roots declined with N, increased with P, and was unresponsive to K addition. Although plant species composition remains unchanged after 14 years of fertilization, fine‐root characteristics responded to N, P, and K addition, providing some of the strongest stand‐level responses in this experiment. Multiple soil nutrients regulate fine‐root abundance, morphological and chemical traits, and their association with mycorrhizal fungi in a species‐rich lowland tropical forest.
AbstractList	Questions remain as to which soil nutrients limit primary production in tropical forests. Phosphorus (P) has long been considered the primary limiting element in lowland forests, but recent evidence demonstrates substantial heterogeneity in response to nutrient addition, highlighting a need to understand and diagnose nutrient limitation across diverse forests. Fine-root characteristics including their abundance, functional traits, and mycorrhizal symbionts can be highly responsive to changes in soil nutrients and may help to diagnose nutrient limitation. Here, we document the response of fine roots to long-term nitrogen (N), P, and potassium (K) fertilization in a lowland forest in Panama. Because this experiment has demonstrated that N and K together limit tree growth and P limits fine litter production, we hypothesized that fine roots would also respond to nutrient addition. Specifically we hypothesized that N, P, and K addition would reduce the biomass, diameter, tissue density, and mycorrhizal colonization of fine roots, and increase nutrient concentration in root tissue. Most morphological root traits responded to the single addition of K and the paired addition of N and P, with the greatest response to all three nutrients combined. The addition of N, P, and K together reduced fine-root biomass, length, and tissue density, and increased specific root length, whereas root diameter remained unchanged. Nitrogen addition did not alter root N concentration, but P and K addition increased root P and K concentration, respectively. Mycorrhizal colonization of fine roots declined with N, increased with P, and was unresponsive to K addition. Although plant species composition remains unchanged after 14 years of fertilization, fine-root characteristics responded to N, P, and K addition, providing some of the strongest stand-level responses in this experiment. Multiple soil nutrients regulate fine-root abundance, morphological and chemical traits, and their association with mycorrhizal fungi in a species-rich lowland tropical forest.
Author	Wurzburger, Nina Wright, S. Joseph
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Snippet	Questions remain as to which soil nutrients limit primary production in tropical forests. Phosphorus (P) has long been considered the primary limiting element...
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SubjectTerms	biomass Fertilizers fine roots Forests lowland forests Mycorrhizae mycorrhizal fungi nitrogen Nitrogen - administration & dosage Nitrogen - pharmacology nitrogen content nutrient content nutrients Panama phosphorus Phosphorus - administration & dosage Phosphorus - pharmacology Plant Development - drug effects Plant Roots - drug effects Plant Roots - growth & development potassium Potassium - administration & dosage Potassium - pharmacology primary productivity Soil Microbiology soil nutrients species diversity symbionts tree growth Tropical Climate tropical forests
Title	Fine‐root responses to fertilization reveal multiple nutrient limitation in a lowland tropical forest
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