Changes in phosphorus fractions at various soil depths following long-term P fertiliser application on a Black Vertosol from south-eastern Queensland

Wang, X.; Lester, David W.; Guppy, Christopher N.; Lockwood, Peter; Tang, Caixian

doi:10.1071/sr07069

Cited by 68 publications

(53 citation statements)

References 49 publications

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“…The main reason is the very high phosphate fixation capacity of soil materials, and thus there are few examples in which subsurface soils show a response to chronic P additions (cf. Wang et al 2007;Rivaie et al 2008). However, our data agree with Wagar et al (1986) that P o is more mobile than P i , and thus P o in the labile fraction with added P moves downward more readily than P i .…”

Section: Impact Of Chronic Nutrient Additioncontrasting

confidence: 42%

Soil phosphorus responses to chronic nutrient fertilisation and seasonal drought in a humid lowland forest, Panama

et al. 2013

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Abstract. We used the Hedley sequential fractionation scheme to assess phosphorus (P) chemistry of a strongly weathered soil from a humid lowland forest in Panama. Our analyses were part of a factorial experiment of nitrogen, P, and potassium addition, with nutrients added annually, i.e. a chronic input. The aim was to examine changes in soil P chemistry with 7 years of nutrient addition for soils collected in the wet season and the dry season. The majority of P occurred in fractions extracted by NaOH (24% of the total soil P) and hot concentrated HCl (58% of the total). Organic P (P o ) was~54% of extractable P. Labile P, defined as P o plus inorganic P (P i ) extracted by NaHCO 3 , was largely P o (84% of the NaHCO 3 -extractable P). Chronic P addition increased NaHCO 3 -extractable P o several-fold and NaOH-extractable P i two-fold. Seasonal variation occurred for labile P and NaOH-extractable P, whereas occluded P did not vary throughout the study period. Extractable P was~15% higher in surface than subsurface soil. We added 350 kg P ha -1 during the 7-year period and recovered~55% by sequential extraction. According to biogeochemical theory, added P should show up in fractions with the shortest residence times, e.g. labile P. Our finding that added P accumulated in fractions with presumably long residence times, i.e. extracted by NaOH (bound) and hot concentrated HCl (occluded), suggests that greater attention be paid to the short-term dynamics of bound and occluded P in strongly weathered tropical forest soils.

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Section: Impact Of Chronic Nutrient Additioncontrasting

confidence: 42%

Soil phosphorus responses to chronic nutrient fertilisation and seasonal drought in a humid lowland forest, Panama

et al. 2013

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“…Similarly, in an Oxisol, Buhler et al (2002) reported that the NaOH-Pi was the main sink for the applied P. The dynamics of the NaOH-Pi can be explained by the adsorption of Pi through ligand exchange with hydroxyl groups located on the surface of Fe and Al oxides/hydroxides, and the desorption of Pi from the surface of oxides/hydroxides in the presence of 0.5 M NaOH (Tan 1998;Vu 2004). The transformation of the added P into the acid-extractable P fraction in Vertosols is in agreement with previous studies showing that acid-extractable P was the highest P pool in the same soil type (Wang et al 2007;Vu et al 2009). Alternatively, the predominance of Pi extracted by the acids compared to the alkali may reflect the strong association of P with Ca.…”

Section: The Fate Of Applied P In Different Soil Typessupporting

confidence: 90%

Long-term changes in phosphorus fractions in growers’ paddocks in the northern Victorian grain belt

Armstrong²,

Newton³

et al. 2010

Nutr Cycl Agroecosyst

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Increases in P fertiliser use in Australian grain production systems over the past decades have not necessarily coincided with improved nutrient-use efficiency by crops because only a small proportion of applied P has been directly used by crops, leaving large amounts of the P in soil. Information on the transformation of applied P and the residual effectiveness of P fertiliser in growers' paddocks under their crop rotations in a wide range of soil types may help to develop improved management practises for P fertilisers. The present study examined the size and changes of P pools in soils in the major regions used for grain production across northern Victoria. Soil samples were collected from 43 sites representing all the major soil types. In addition, samples were collected from adjacent 'reference' areas across fence-lines where remnant native vegetation was present to examine long-term changes in soil fertility as a result of cropping. Highly positive P balance in 27 growers' paddocks indicates potentially high rates of P fertilization in excess of that exported/lost from these paddocks. The accumulated P was transformed into both labile and non-labile pools depending on the general chemical-physical properties of a particular soil. In particular, in soils with a sandy texture and low oxalate-extractable Al and Fe such as the sandy Calcarosols, the residual P fertilizer was preferentially transformed into labile and moderately labile pools. These P fractions can be available for subsequent crops. In contrast, a large proportion of P fertilizer applied to other soil types has been transformed into the non-labile P pools where crops have difficulty in accessing. It is suggested that P application rates should be reduced to avoid the loss of P through sorption/precipitation, leaching or runoff while still meet crop demand.

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“…For the clay soil, increased root proliferation in the subsoil due to surface drought was possibly counter-balanced by net root loss in the dry topsoil, resulting in a similar total root dry weight to that with topsoil watering. The potential benefit of subsoil P sources and application has been demonstrated in many studies (Haak 1977;Kuhlmann and Baumgartel 1991;Norrish et al 2003;Singh et al 2005;Wang et al 2007). Frequent surface drought decreases both root growth and function in the topsoil (Puroit and Mukherjee, 1974) but increases the significance of subsoil P nutrition.…”

Section: Hydraulic Liftmentioning

confidence: 94%

The role of hydraulic lift and subsoil P placement in P uptake of cotton (Gossypium hirsutum L.)

et al. 2009

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Changes in phosphorus fractions at various soil depths following long-term P fertiliser application on a Black Vertosol from south-eastern Queensland

Cited by 68 publications

References 49 publications

Soil phosphorus responses to chronic nutrient fertilisation and seasonal drought in a humid lowland forest, Panama

Soil phosphorus responses to chronic nutrient fertilisation and seasonal drought in a humid lowland forest, Panama

Long-term changes in phosphorus fractions in growers’ paddocks in the northern Victorian grain belt

The role of hydraulic lift and subsoil P placement in P uptake of cotton (Gossypium hirsutum L.)

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