2017
DOI: 10.1080/00049158.2017.1331701
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Nutrient management of contrasting Acacia mangium genotypes and weed management strategies in South Sumatra, Indonesia

Abstract: Tropical plantations are an important source of forest products both to meet the growing demand for wood, and to facilitate the transition from native forests to more sustainably produced forest resources. Management of these plantations for optimal productivity and resource-use efficiency is vitally important, and nutrient management is a critical component of sustainable plantation production. In this study, we explored the response of Acacia mangium plantations in South Sumatra, Indonesia, to fertiliser and… Show more

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Cited by 14 publications
(18 citation statements)
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“…This limited the viability of its comparison with E. pellita to age 1.5 y when A. mangium had a similar stocking rate and 16% more standing volume. This higher mortality may have contributed in part to the lower P response (around 33%) than in E. pellita (around 136%) that was also lower than found previously in South Sumatra [8], Central Sumatra [23] and in Kalimantan [40]. The proportional response of A. mangium to P gradually declines with age [8]; in these trials, E. pellita maintained a consistently higher response with age.…”
Section: Comparison Of E Pellita and A Mangium Productivitymentioning
confidence: 44%
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“…This limited the viability of its comparison with E. pellita to age 1.5 y when A. mangium had a similar stocking rate and 16% more standing volume. This higher mortality may have contributed in part to the lower P response (around 33%) than in E. pellita (around 136%) that was also lower than found previously in South Sumatra [8], Central Sumatra [23] and in Kalimantan [40]. The proportional response of A. mangium to P gradually declines with age [8]; in these trials, E. pellita maintained a consistently higher response with age.…”
Section: Comparison Of E Pellita and A Mangium Productivitymentioning
confidence: 44%
“…Hence, E. pellita grown on a site that had previously supported three rotations of A. mangium had a higher response to P than on a site recently converted from secondary forest; this was presumably related to a lower nutrient stock in the soil (Table 1) and/or perhaps changes in soil properties during the three previous rotations at the Core site. In South Sumatra, the application of 36 kg P ha −1 early in the rotation at seven sites planted to E. pellita resulted in a 38%-198% increase in stand volume at age 3 y [26]; the application of a range of P rates at planting at ten sites planted to A. mangium resulted in a 40%-180% increase in stand volume at age 1 y [8]. In A. mangium, site responsiveness is linked to a range of soil characteristics and particularly the physical characteristics of subsoil [27].…”
Section: Phosphorus Responsementioning
confidence: 99%
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“…Although this volume gain tended to increase over time, the proportional response was diminished because the overall standing volume increased at a greater rate. Interestingly, the P fertiliser requirement (calculated as the amount of P required to reach 90% of the maximum productivity) was less than 10 kg ha −1 P at every site (Mendham et al 2017), so a universal dose of 10 kg ha −1 P was recommended to be sufficient across all planting sites within the study region of South Sumatra. It was further recommended that further refinement of diagnostics of P fertiliser requirement would not be cost effective within that region.…”
Section: Responses To Phosphorus Fertilisermentioning
confidence: 99%