Release of nitrogen, phosphorus, and potassium during the decomposition of apple (<i>Malus domestica</i>) leaf litter under different fertilization regimes in Loess Plateau, China

Han, Ming Y.; Zhang, Li X.; Fan, Chong H.; Liu, Li H.; Zhang, Lin S.; Li, Bing Z.; Alva, A. K.

doi:10.1080/00380768.2011.593481

Cited by 28 publications

(13 citation statements)

References 24 publications

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“…For example, mass loss of leaf litter was far lower for Scots pine (Pinus sylvestris L.) at 20-28%, apple at 19% and chestnut (Castanea sativia Mill.) at 35% during early decomposition stages of up to 3 months under field conditions (Berg & Matzner 1997;Raimundo et al 2008;Han et al 2011). This report offers evidence that respiration from the treatment soil is in fact greater than the control and suggests greater cumulative soil respiration is not only the result of leaf litter decomposition but also from greater soil C mineralization, which ultimately impacts N cycling processes of mineralization and immobilization.…”

Section: Resultsmentioning

confidence: 84%

Leaf litter C and N cycling from a deciduous permanent crop

Khalsa

Almanza

Brown

2016

Soil Science and Plant Nutrition

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Our understanding of leaf litter carbon (C) and nitrogen (N) cycling and its effects on N management of deciduous permanent crops is limited. In a 30-day laboratory incubation, we compared soil respiration and changes in mineral N [ammonium (NH 4 + -N) + nitrate (NO 3 --N)], microbial biomass nitrogen (MBN), total organic carbon (TOC) and total non-extractable organic nitrogen (TON) between a control soil at 15 N natural abundance (δ 15 N = 1.08‰) without leaf litter and a treatment with the same soil, but with almond (Prunus dulcis (Mill.) D.A. Webb) leaf litter that was also enriched in 15 N (δ 15 N = 213‰). Furthermore, a two-end member isotope mixing model was used to identify the source of N in mineral N, MBN and TON pools as either soil or leaf litter. Over 30 d, control and treatment TOC pools decreased while the TON pool increased for the treatment and decreased for the control. Greater soil respiration and significantly lower (p < 0.05) mineral N from 3 to 15 d and significantly greater MBN from 10 to 30 d were observed for the treatment compared to the control. After 30 d, soil-sourced mineral N was significantly greater for the treatment compared to the control. Combined mineral N and MBN pools derived from leaf litter followed a positive linear trend (R 2 = 0.75) at a rate of 1.39 μg N g −1 soil day −1 . These results suggest early-stage decomposition of leaf litter leads to N immobilization followed by greater N mineralization during later stages of decomposition. Direct observations of leaf litter C and N cycling assists with quantifying soil N retention and availability in orchard N budgets. ARTICLE HISTORY

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Section: Resultsmentioning

confidence: 84%

Leaf litter C and N cycling from a deciduous permanent crop

Khalsa

Almanza

Brown

2016

Soil Science and Plant Nutrition

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“…Soil SOC and other soil nutrients differed between Eucalyptus soil and original forest, such as TP and AP, or stabilized under certain conditions (TP), probably partly arising from processes such as litter fall decomposition, leaching and mineralization ( Falkiner & Smith, 1997 ; Jaiyeoba, 1998 ; Laclaua et al, 2003 ). Phosphorus concentrations may exhibit an increase during the process of decomposition of leaf litter ( Ribeiro, Madeira & Araújo, 2002 ; Han et al, 2011 ).…”

Section: Discussionmentioning

confidence: 99%

Variation of soil bacterial communities along a chronosequence of Eucalyptus plantation

Lin

Pei

et al. 2018

PeerJ

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Eucalyptus is harvested for wood and fiber production in many tropical and sub-tropical habitats globally. Plantation has been controversial because of its influence on the surrounding environment, however, the influence of massive Eucalyptus planting on soil microbial communities is unclear. Here we applied high-throughput sequencing of the 16S rRNA gene to assess the microbial community composition and diversity of planting chronosequences, involving two, five and ten years of Eucalyptus plantation, comparing to that of secondary-forest in South China. We found that significant changes in the composition of soil bacteria occurred when the forests were converted from secondary-forest to Eucalyptus. The bacterial community structure was clearly distinct from control and five year samples after Eucalyptus was grown for 2 and 10 years, highlighting the influence of this plantation on local soil microbial communities. These groupings indicated a cycle of impact (2 and 10 year plantations) and low impact (5-year plantations) in this chronosequence of Eucalyptus plantation. Community patterns were underpinned by shifts in soil properties such as pH and phosphorus concentration. Concurrently, key soil taxonomic groups such as Actinobacteria showed abundance shifts, increasing in impacted plantations and decreasing in low impacted samples. Shifts in taxonomy were reflected in a shift in metabolic potential, including pathways for nutrient cycles such as carbon fixation, which changed in abundance over time following Eucalyptus plantation. Combined these results confirm that Eucalyptus plantation can change the community structure and diversity of soil microorganisms with strong implications for land-management and maintaining the health of these ecosystems.

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“…Assessing nutrient content through foliar diagnosis in apple tree is necessary to establish the nutrition level of fruit trees, in order to guide nutrition through fertilisation and to ensure the sustainability of the production system (Han et al 2011).…”

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confidence: 99%

Relationship between tree nutritional status and apple quality

Jivan

Sala

2014

Hortic. Sci.

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Jivan C., Sala F., 2014. Relationship between tree nutritional status and apple quality. Hort. Sci. (Prague), 41: 1-9.Development of prediction models for the quality of apples is useful in guiding fruit tree nutrition and in optimising fruit management. The interrelationships between the leaf nutrient contents and some fruit quality indices were studied in five apple cultivars -Generos, Florina, Delicios de Voinesti, Jonathan and Pionier. Highly significant relationships between N and Fe contents (R 2 = 0.734; P < 0.01) and between Cu and K (R 2 = 0.702; P < 0.01) were found. Acidity was negatively correlated with soluble solids content in the cvs Generos, Delicios de Voinesti and Jonathan, whereas the respective correlation in the apple cv. Pionier was positive. In cv. Florina fruits no significant correlation was found between acidity and soluble solids content. Among macroelements, nitrogen had a considerable contribution to fruit acidity and this allows to predict this index with a high degree of safety (R 2 = 0.690; RMSEP N = 0.105). Microelements have a lower contribution to acidity and a higher one to the sugar accumulation; in case of Zn are R 2 = 0.809; RMSEP Zn = 4.250.

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Release of nitrogen, phosphorus, and potassium during the decomposition of apple (Malus domestica) leaf litter under different fertilization regimes in Loess Plateau, China

Cited by 28 publications

References 24 publications

Leaf litter C and N cycling from a deciduous permanent crop

Leaf litter C and N cycling from a deciduous permanent crop

Variation of soil bacterial communities along a chronosequence of Eucalyptus plantation

Relationship between tree nutritional status and apple quality

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