Effects of litter source on the dynamics of particulate organic matter fractions and rates of macroaggregate turnover in different soil horizons

Parwada, Cosmas; Tol, Johan van

doi:10.1111/ejss.12726

Cited by 17 publications

(9 citation statements)

References 36 publications

(78 reference statements)

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“…This process is dynamic, and some breakdown of macroaggregates is necessary to allow inclusion of incoming labile organic matter into new microaggregates [13] and macroaggregates [14]. Soils with extremely long aggregate turnover times sequester little new carbon but stabilize the carbon in their interior for long times, while extremely short turnover times can potentially sequester a lot of new carbon but could also reduce overall soil stability if aggregates are not regenerated at the same rate that they degrade [12].…”

Section: Introductionmentioning

confidence: 99%

Visualizing the dynamics of soil aggregation as affected by arbuscular mycorrhizal fungi

et al. 2019

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Stable soils provide valuable ecosystem services and mechanical soil stability is enhanced by the presence of arbuscular mycorrhizal fungi (AMF). Soil aggregation, which is the major driver of mechanical soil stability, is often treated as a static phenomenon, even though aggregate turnover is continually ongoing. In fact, some breakdown of macroaggregates is necessary to allow new aggregate formation and inclusion of new organic matter into microaggregates. We determined how aggregate turnover times were affected by AMF by tracking movement of rare earth elements (REE), applied as their immobile oxides, between aggregate size classes, and using X-ray fluorescence microscopy to spatially localize REEs in a sample of aggregates. Here we show that AMF increased large macroaggregate formation and slowed down disintegration of large and small macroaggregates. Microaggregate turnover was increased in the presence of AMF. Internal aggregate organization suggested that although formation of microaggregates by accretion of soil to particulate organic matter is common, it is not the only mechanism in operation.

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Section: Introductionmentioning

confidence: 99%

Visualizing the dynamics of soil aggregation as affected by arbuscular mycorrhizal fungi

et al. 2019

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“…The C & N in the manure were determined using a method described by Parwada and Van Tol (2018). The Olsen extractable P, exchangeable ammonium and nitrate and nitrite were determined as was described by Parwada et al (2018).…”

Section: Methodsmentioning

confidence: 99%

“…The manure contains important plant nutrients such as N, phosphorus (P), potassium (K), and other secondary nutrients and trace elements, with farmers all over the world having discovered its benefits and associated it with increased crop production (Efthimiadou et al, 2012). The animal manure, unlike synthetic fertilizers, also provides organic matter that can enhance soil infiltration rates, improve water holding capacity, increase cation-exchange capacity (CEC) (Parwada and Van Tol, 2018), and increase soil C (Wuta and Nyamugafata, 2012). Nevertheless, most communal farmers in the SSA e.g Zimbabwe lack recommended manure management practices, such as roofing animal housing, having a water-proof floor or covering manure during storage, causing large nutrient losses during manure storage, increasing greenhouse gas emissions, and reducing the quality of the manure as a fertilizer (AGRA, 2013).…”

Section: Introductionmentioning

confidence: 99%

Use and Management of Animal Manure by the Communal Farmers, Seke District, Mashonaland East Province, Zimbabwe

Parwada¹

2021

Res. World Agric. Econ.

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Poor handling and storage practices reduce the manure quality as a fertilizer. A survey was done in the Seke communal area, Zimbabwe to establish common manure management practices, determine factors that influence use of manure and determine effects of the manure management practices on vegetable yield. A structured questionnaire was administered to 222 respondents from April to August 2019. Both descriptive and inferential statistics were done using SPSS. Chi-square tests and Spearman rank correlation were done to test for associations and the non-cause-effect relationship between different independent variables and farmers’ management practice of manure respectively. 88% of the respondents owned <1 ha of land and chicken manure was frequently (51%) used but with least (<0.5 t/ha) application quantities. Cattle manure was applied in largest (> 0.5 t/ha) quantities and >50% of the farmers were void of information on animal manure management. Fencing only was the common type of animal housing but had negative effects on quantity and quality of the manure. Drylot was most common (90%) manure management practice and different manure management practices had significantly (P<0.05) varied effects on vegetable yield. Drying manure resulted in significantly (P<0.05) low losses in manure quality. Generally, poultry and pigs manure had higher nutrient content compared to cattle and goat manure. Animal housing affected the quantity and quality of the manures as a fertilizer. Extension service programs like vocational training on manure management, exposure visits between farmers as well as a lead farm approach are necessary.

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“…In soil ecosystems where above-ground biomass production is limited like in the arid and semiarid, the organic inputs are mostly from below-ground sources. Soil organic matter is also the most important indicator of soil quality as it generally modifies many soil properties including the soilhydrological properties (Parwada & van Tol, 2018).…”

Section: Introductionmentioning

confidence: 99%

“…Soil organic matter can significantly influence soil nutrient pools and control total cation exchange capacity (organic and clay mineral) of the soil (Parwada & van Tol, 2018). Fire transforms unstable SOM to a relatively stable form, e.g.…”

Section: Introductionmentioning

confidence: 99%

Impacts of different prescribed fire frequencies on selected soil chemical properties in a semi-arid savannah thornveld

Parwada

Magomani

Tol

et al. 2020

Cogent Environmental Science

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Effects of litter source on the dynamics of particulate organic matter fractions and rates of macroaggregate turnover in different soil horizons

Cited by 17 publications

References 36 publications

Visualizing the dynamics of soil aggregation as affected by arbuscular mycorrhizal fungi

Visualizing the dynamics of soil aggregation as affected by arbuscular mycorrhizal fungi

Use and Management of Animal Manure by the Communal Farmers, Seke District, Mashonaland East Province, Zimbabwe

Impacts of different prescribed fire frequencies on selected soil chemical properties in a semi-arid savannah thornveld

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