Field applications of gypsum reduce pH and improve soil C in highly alkaline soils in southern Australia’s dryland cropping region

Highly alkaline soils are widespread throughout south‐eastern Australia. High pH limits the accumulation and retention of organic carbon (C), and thus the availability of nutrients to crops and is also associated with various elemental deficiencies and toxicities that restrict crop productivity. App...

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Bibliographic Details
Published in:Soil use and management 2022-01, Vol.38 (1), p.466-477
Main Authors: Tavakkoli, Ehsan, Uddin, Shihab, Rengasamy, Pichu, McDonald, Glenn K.
Format: Article
Language:English
Subjects:
Alfalfa
Alkaline soils
alkalinity
aluminium toxicity
Arid zones
Biomass
Calcium
Calcium carbonate
Calcium carbonates
Carbonates
Crop production
Crop yield
Crops
dissolved organic carbon
Fertilizers
Gypsum
Hydroxyapatite
Legumes
Low concentrations
Nutrient availability
Nutrients
Organic carbon
Organic soils
Pasture
pH effects
Physical properties
Planting
Sodic soils
Soil chemistry
Soil improvement
Soil pH
Soil physical properties
Soil properties
Soils
Topsoil
Wheat
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Summary:Highly alkaline soils are widespread throughout south‐eastern Australia. High pH limits the accumulation and retention of organic carbon (C), and thus the availability of nutrients to crops and is also associated with various elemental deficiencies and toxicities that restrict crop productivity. Applying gypsum and increasing legume production reduce pH and improve soil chemical and physical properties in alkaline, sodic soils, but this strategy has not been explored in alkaline soils in the region where many of the topsoils are non‐sodic. Five short‐term rotation experiments were conducted to examine the potential to reduce pH, improve soil organic C and increase crop production. In the first year, three legumes—field peas (Pisum sativum), vetch (Vicia sativa) and a medic pasture (Medicago spp.)—were grown at low or high inputs of seed and fertilizer and with three rates of gypsum (0, 2.5 t/ha and 5.0 t/ha). In the following seasons, wheat (Triticum aestivum) and barley (Hordeum vulgare) were grown. Using high sowing and fertilizer rates to increase legume biomass had little effect on soil properties; however, applying gypsum consistently resulted in a lower soil pH and dissolved organic C and higher organic C compared with the unamended control to a depth of 0.20–0.30 m. The largest difference occurred with 2.5 t gypsum/ha with little further change at 5 t/ha. Gypsum significantly increased biomass and grain yield at sites with low concentrations of calcium carbonate. Low rates of gypsum may be effective in reducing pH, maintaining soil organic C and improving crop production in regions with alkaline soils low in calcium carbonate.
ISSN:0266-0032
1475-2743
DOI:10.1111/sum.12756