Nitrogen mineralization in short-rotation tree plantations along a soil nitrogen gradient

Lee, Kye-Han; Jose, Shibu

doi:10.1139/x06-019

Cited by 14 publications

(21 citation statements)

References 32 publications

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“…Calculating the proportion of fertilizer N acquired, or FUE, requires quantification of N AV based on both the amount of N applied via fertilization and N MIN . Although the actual amount of N MIN was unknown, the use of paired fertilized and non-fertilized plot N UP provided approximations of N MIN rates that are comparable to those found by others in the region (Lee and Jose 2006;Gurlevik et al 2004). Mineralization following fertilization can be higher (Connell et al 1995) or lower (Johnson et al 1980), and can depend on the forest type (Lee and Jose 2006), so the magnitude of mineralized N available in fertilized plots was only approximated and some inconsistencies exist.…”

Section: Indices and Strategies Of Efficiencysupporting

confidence: 62%

“…Although the actual amount of N MIN was unknown, the use of paired fertilized and non-fertilized plot N UP provided approximations of N MIN rates that are comparable to those found by others in the region (Lee and Jose 2006;Gurlevik et al 2004). Mineralization following fertilization can be higher (Connell et al 1995) or lower (Johnson et al 1980), and can depend on the forest type (Lee and Jose 2006), so the magnitude of mineralized N available in fertilized plots was only approximated and some inconsistencies exist. Both N UP and NPP were positively influenced by irrigation, but the lack of an irrigation effect on FUE suggests that, although more N may have been available with irrigation, the amount that could be acquired was not influenced.…”

Section: Indices and Strategies Of Efficiencysupporting

confidence: 62%

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Functional groups show distinct differences in nitrogen cycling during early stand development: implications for forest management

2011

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stands is controlled by soil resource availability and belowground production, but tree species are rarely compared in this regard. Here, we examine ecological and management implications of nitrogen (N) dynamics during early forest stand development in productive commercial tree species with narrow (Populus deltoides Bartr. and Platanus occidentalis L.) and broad (Liquidambar styraciflua L. and Pinus taeda L.) site requirements while grown with a range of nutrient and water resources.belowground perennial and ephemeral tissues, determined N uptake (N UP ), and calculated N use efficiency (NUE). Results Forest stands regulated [N] within speciesspecific operating ranges without clear temporal or treatment patterns, thus demonstrating equilibrium between tissue [N] and biomass accumulation. Forest stand N C and N UP increased with stand development and paralleled treatment patterns of biomass accumulation, suggesting productivity is tightly linked to N UP . Inclusion of above-and belowground ephemeral tissue turnover in N UP calculations demonstrated that maximum N demand for narrow-sites adapted species exceeded 200 kg N ha −1 year −1 while demand for broad-site adapted species was below this level. NUE was species dependent but not consistently influenced by N availability, suggesting relationships between NUE and resource availability were species dependent. Conclusions Based on early stand development, species with broad site adaptability are favored for woody cropping systems because they maintain high above-and belowground productivity with minimal fertilization requirements due to higher NUE than narrow site adapted species. Abstract Background and aims Nutrient acquisition of forestMethods We constructed N budgets by measuring N concentration ([N]) and N content (N C ) of above-and

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Section: Indices and Strategies Of Efficiencysupporting

confidence: 62%

Section: Indices and Strategies Of Efficiencysupporting

confidence: 62%

Functional groups show distinct differences in nitrogen cycling during early stand development: implications for forest management

2011

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“…The 81 kg·ha −1 annual Nmin mean of the CONTROL treatment in this study was similar to the 75 kg·ha −1 annual Nmin reported for a 7-year-old loblolly pine plantation in Florida, USA on sandy loam soil [33]. The 81 to 146 kg·ha −1 annual Nmin range of this study was somewhat higher than the 22 to 96 kg·ha −1 annual Nmin range for a 14-year-old loblolly pine plantation in North Carolina, USA on a highly weathered, eroded clay loam receiving fertilizer and herbicide [2].…”

Section: Discussionsupporting

confidence: 83%

“…The increases in soil NO3-N and the NO3:exchangeable N ratio at the Lucky site and the increases in soil NO3-N at the Dodson in response to FERTVS treatment conducted post-thinning suggest that this treatment exceeded stand N demand. These results show that avoiding fertilization preor post-thinning at an N-sufficient site and applying herbicide in the year of thinning and fertilization at the range of site conditions in this study could minimize NO3-N concentration increases, which can help in reducing N leaching loss potential and improving fertilizer use efficiency [33].…”

Section: Discussionmentioning

confidence: 74%

Mid-Rotation Silviculture Timing Influences Nitrogen Mineralization of Loblolly Pine Plantations in the Mid-South USA

Blazier

Coleman

2015

Forests

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Abstract:Intensively managed loblolly pine (Pinus taeda L.) plantations often develop nutrient deficiencies near mid-rotation. Common silvicultural treatments for improving stand nutrition at this stage include thinning, fertilization, and vegetation control. It is important to better understand the influence of timing fertilization and vegetation control in relation to thinning as part of improving the efficiency of these practices. The objective of this study was to determine the effects of fertilization and vegetation control conducted within a year prior to thinning and within a year after thinning on soil N supply in mid-rotation loblolly pine plantations on a gradient of soil textures. Net N mineralization (Nmin) and exchangeable N were measured monthly. Fertilization increased annual Nmin at all sites irrespective of timing relative to thinning, with the increase more pronounced when combined with vegetation control. This finding suggests some management flexibility in the timing of mid-rotation fertilization relative to thinning for increasing soil N supply. However, the site with the highest total soil N and the lowest C:N ratio was more prone to NO3-N increases after fertilization conducted pre-and post-thinning. At all sites, fertilization with vegetation control promoted increases in NO3-N when done after thinning, which may indicate that this practice increased soil N supply to levels that exceeded stand N demand. OPEN ACCESSForests 2015, 6 1062

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“…The measured annual N mineralization (280 kg N ha À1 yr À1 ) was much higher than N fertilization in 2002 but part of this mineralized N may have been derived from previous microbial immobilisation of chemical N fertilizer. Positive fertilizer-mineralization interactions were reported by Kolberg et al (1999) for cropping systems and by Lee and Jose (2006) for tree plantations. The method used, although adequate to compare adjacent plots, may over-estimate absolute values because roots are cut (Jussy et al 2004).…”

Section: N Dynamicsmentioning

confidence: 92%

Nitrogen dynamics and soil nitrate retention in a Coffea arabica—Eucalyptus deglupta agroforestry system in Southern Costa Rica

et al. 2007

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Nitrogen fertilization is a key factor for coffee production but creates a risk of water contamination through nitrate (NO 3 À ) leaching in heavily fertilized plantations under high rainfall. The inclusion of fast growing timber trees in these coffee plantations may increase total biomass and reduce nutrient leaching. Potential controls of N loss were measured in an unshaded coffee (Coffea arabica L.) plot and in an adjacent coffee plot shaded with the timber species Eucalyptus deglupta Blume (110 trees ha À1 ), established on an Acrisol that received 180 kg N ha À1 as ammonium-nitrate and 2,700 mm yr À1 rainfall. Results of the one year study showed that these trees had little effect on the N budget although some N fluxes were modified. Soil N mineralization and nitrification rates in the 0-20 cm soil layer were similar in both systems (&280 kg N ha À1 yr À1 ). N export in coffee harvest (2002) was 34 and 25 kg N ha À1 yr À1 in unshaded and shaded coffee, and N accumulation in permanent biomass and litter was 25 and 45 kg N ha À1 yr À1 , respectively. The losses in surface runoff (&0.8 kg mineral N ha À1 yr À1 ) and N 2 O emissions (1.9 kg N ha À1 yr À1 ) were low in both cases. Lysimeters located at 60, 120, and 200 cm depths in shaded coffee, detected average concentrations of 12.9, 6.1 and 1.2 mg NO 3 À -N l À1 , respectively.Drainage was slightly reduced in the coffee-timber plantation. NO 3 À leaching at 200 cm depth was about 27 ± 10 and 16 ± 7 kg N ha À1 yr À1 in unshaded and shaded coffee, respectively. In both plots, very low NO 3 À concentrations in soil solution at 200 cm depth (and in groundwater) were apparently due to NO 3

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Nitrogen mineralization in short-rotation tree plantations along a soil nitrogen gradient

Cited by 14 publications

References 32 publications

Functional groups show distinct differences in nitrogen cycling during early stand development: implications for forest management

Functional groups show distinct differences in nitrogen cycling during early stand development: implications for forest management

Mid-Rotation Silviculture Timing Influences Nitrogen Mineralization of Loblolly Pine Plantations in the Mid-South USA

Nitrogen dynamics and soil nitrate retention in a Coffea arabica—Eucalyptus deglupta agroforestry system in Southern Costa Rica

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