2015
DOI: 10.1007/s11104-015-2558-6
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Effects of Amazonian Dark Earths on growth and leaf nutrient balance of tropical tree seedlings

Abstract: Background and aims Amazonian Dark Earths (ADE) are ancient anthropogenic soils distributed in the Amazon basin. They are characterized by high nutrients such as phosphorus, calcium, potassium and nitrogen. We studied the effect of ADE on growth, morphology and physiology of 17 tree species from a Bolivian tropical moist forest. Methods We conducted a greenhouse experiment where seedlings were grown for 2-4 months on ADE and non-ADE. We evaluated soil nutrient concentrations, seedling growth, leaf and root fun… Show more

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Cited by 8 publications
(11 citation statements)
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“…Despite recent declines in edible plants, the enriched levels have not returned to pre-human occupation levels at LC or in modern vegetation surveys of ADE and non-ADE forest plots in the surrounding area (Maezumi et al, 2018;Almeida et al, in review). Additionally, enriched levels of palms and other useful plants have been documented in modern forests growing on pre-Columbian mounds, anthropogenic soils, and geoglyphs abandoned more than 400 years ago in other parts of the Amazon, suggesting the persistent legacy of pre-Columbian enrichment, irrespective of modern land use histories (Erickson and Balée, 2006;Walker, 2011;Quintero-Vallejo et al, 2015;Watling et al, 2017). These data indicate pre-Columbian vs. later periods of human land use was the primary driver of ADE forest enrichment.…”
Section: Pre-columbian Impact On Forest Compositionmentioning
confidence: 77%
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“…Despite recent declines in edible plants, the enriched levels have not returned to pre-human occupation levels at LC or in modern vegetation surveys of ADE and non-ADE forest plots in the surrounding area (Maezumi et al, 2018;Almeida et al, in review). Additionally, enriched levels of palms and other useful plants have been documented in modern forests growing on pre-Columbian mounds, anthropogenic soils, and geoglyphs abandoned more than 400 years ago in other parts of the Amazon, suggesting the persistent legacy of pre-Columbian enrichment, irrespective of modern land use histories (Erickson and Balée, 2006;Walker, 2011;Quintero-Vallejo et al, 2015;Watling et al, 2017). These data indicate pre-Columbian vs. later periods of human land use was the primary driver of ADE forest enrichment.…”
Section: Pre-columbian Impact On Forest Compositionmentioning
confidence: 77%
“…As a result, disturbed ADE forests are more flammable and exhibit increased fire intensity (Cochrane, 2009;Alencar et al, 2015). Modern observations indicate that these structural changes can be observed in ADE forests that have no documented land use following European conquest, as well as in forests that have experienced continued exploitation following colonization (Lins et al, 2015;Quintero-Vallejo et al, 2015;Junqueira et al, 2017;Palace et al, 2017). These data suggest the structural characteristics associated with ADE forests are attributed to preColumbian, opposed to later human land use and that these structural changes persist in modern ADE forests.…”
Section: Pre-columbian Management and Altered Ade Forest Structurementioning
confidence: 93%
“…; Quintero‐Vallejo et al . ). In high pH soils, calcium can react with inorganic phosphorus and form mineral insoluble calcium phosphate, which makes phosphorus unavailable for most plants (Tyler ).…”
Section: Discussionmentioning
confidence: 97%
“…Higher concentration of calcium in plants tissues can also result in nutrient imbalance and calcium toxicity that inhibits growth and causes mortality (Jefferies & Willis ; Quintero‐Vallejo et al . ). Finally, species with conservative trait values (high wood density and low specific leaf area) dominate on nutrient poor soils (Kendall's correlation between Ca and CEC is 0.8, P < 0.01, N = 200) because these traits enhance nutrient residence time in the plants (Reich et al .…”
Section: Discussionmentioning
confidence: 97%
“…In general, plant species from the same family grown in the same environment have similar leaf ionomes, whereas those of different families and orders are distinct (Broadley et al , White et al ). Furthermore, despite the effects of environment on the leaf ionome, strong phylogenetic effects on the mineral composition of plant species can still be observed even in extensive field surveys (Garten , Thompson et al , Kerkhoff et al , Watanabe et al , Fyllas et al , Metali et al , Zhang et al , Cornwell et al , Hao et al , Viani et al , Sardans et al , He et al , Verboom et al ), surveys of plots receiving contrasting fertilisation, such as the Rothamsted Park Grass Experiment (White et al ), and pot experiments with contrasting soils (Viani et al , Quintero‐Vallejo et al ). For example, the leaves of Poales are characterised by relatively small Ca, Mg and B concentrations, leaves of Brassicales are characterised by relatively large Ca, Zn and S concentrations, and leaves of Caryophyllales are characterised by relatively large Mg, Zn and Na concentrations (Fig.…”
Section: Phylogenetic Effects On the Leaf Ionomementioning
confidence: 99%