Dry farming with soils under natural tephra cover in Lanzarote, Spain

Abstract. The volcanic island of Lanzarote (Canary Islands, Spain) is one of the most arid parts of the European Union. During the eruptions of 1730–36, a third of the island was covered with lava and pyroclastic material. In areas under basaltic tephra, an agrosystem has been developed that allows a form of dry farming that has become a key component of the local economy. This article illustrates the effectiveness of the layer of natural tephra mulch in conserving soil and water.     

基于SHAW模型的南疆典型灌区适宜盐分淋洗定额空间分布

明晰西北旱区休闲期土壤盐分淋洗定额的空间分布特征,对于水资源有效利用、土壤盐渍化防控具有重要意义。受制于土壤盐分、土壤质地的空间变异性,在某一点尺度获得的盐分淋洗定额难以全面反映区域的情况。该研究以南疆阿拉尔灌区为例,采用统计学和空间插值相结合的方法,确定灌区土壤盐分、土壤质地的空间分布特征,并通过划分模拟单元,建立基于SHAW（the simultaneous heat and water）模型的灌区尺度分布式模型,得到了不同灌水模式下适宜的盐分淋洗定额空间分布特征。结果表明：阿拉尔灌区土壤盐分呈现出\     

小麦秸秆覆盖量对坡面流水动力学特性影响

为系统研究小麦秸秆覆盖量对坡面流水动力学特性的影响,采用室内定床模拟试验,探究在不同流量(3.0、4.5、6.0、7.5、9.0 L/min)和坡度(3°、5°、10°、15°)下,坡面流水动力参数随秸秆覆盖量(0、1.5、2.5、3.5、4.5 t/hm²)的变化特征。结果表明：1)秸秆覆盖显著影响坡面流流型,在不同流量和坡度下,无秸秆覆盖时坡面流型均为急流,而在秸秆覆盖条件下,坡面流型均变为缓流。当流量≤7.5 L/min时,流态均为层流,当流量>7.5 L/min时,流态均为过渡流。2)随着秸秆覆盖量的增加,坡面流流速分别较裸坡降低了47.85%、53.86%、57.69%、60.11%。3)不同覆盖量下,坡面流流态指数随坡度的变化规律不一致。覆盖量≤2.5t/hm²时,随坡度的增加,流态指数呈先增后减的变化趋势,覆盖量>2.5 t/hm²时,流态指数随坡度的增加而逐渐减小。4)不同覆盖量下,坡面流阻力系数随坡度的变化规律不一致。秸秆覆盖坡面阻力系数是裸坡的9.36～19.68倍。低覆盖量下(≤2.5t...     

Effect of crop residue biochar on soil acidity amelioration in strongly acidic tea garden soils

Strongly acidic soil (e.g. pH < 5.0) is detrimental to tea productivity and quality. Wheat, rice and peanut biochar produced at low temperature (max 300 °C) and differing in alkalinity content were incorporated into Xuan‐cheng (Ultisol; initial pH_{soil/water = 1/2.5} 4.12) and Ying‐tan soil (Ultisol; initial pH _{soil/water = 1/2.5} 4.75) at 10 and 20 g/kg (w/w) to quantify their liming effect and evaluate their effectiveness for acidity amelioration of tea garden soils. After a 65‐day incubation at 25 °C, biochar application significantly (P < 0.05) increased soil pH and exchangeable cations and reduced Al saturation of both tea soils. Association of H⁺ ions with biochar and decarboxylation processes was likely to be the main factor neutralizing soil acidity. Further, biochar application reduced acidity production from the N cycle. Significant (P < 0.05) increases in exchangeable cations and reductions in exchangeable acidity and Al saturation were observed as the rate of biochar increased, but there were no further effects on soil pH. The lack of change in soil pH at the higher biochar rate may be due to the displacement of exchangeable acidity and the high buffering capacity of biochar, thereby retarding a further liming effect. Hence, a significant linear correlation between reduced exchangeable acidity and alkalinity balance was found in biochar‐amended soils (P < 0.05). Low‐temperature biochar of crop residues is suggested as a potential amendment to ameliorate acidic tea garden soils.     

Wheat and Rye Differ in Drymatter Partitioning,Shoot-Root Ratio and Water Use Efficiency Under Organic and Inorganic Soils

Shoot-root ratio (S:R), dry matter partitioning (DMP), and water use efficiency (WUE) response of wheat (Triticum aestivum L.) vs. rye (Secale cereale L.) was investigated under organic [organic compost (OC), Miracle Grow (MG), sunshine peat moss (SPM), and Garden Basic peat humus (GBPM)], and inorganic soils [canyon soil (CS) and amarillo soil (AS)] in pot experiment at Dryland Agriculture Institute, West Texas A&M University, College Station, Texas, USA, during winter 2009–2010. The experiment was performed in completely randomized design (CRD) with three repeats. The objective of this experiment was whether S:R, DMP, and WUE of wheat versus rye differ under organic and inorganic soils. The results revealed that both crops responded differently in terms of S:R, DMP, and WUE under different organic and inorganic soils. Wheat had higher WUE than rye at different growth stages. Among the soil types, the three organic soils (MG, SPM, and GBPS) had higher WUE than the two inorganic (CS and AS) soils. The higher WUE of both crops when grown in organic soils such as MG, SPM, and GBPS was due to the higher dry matter partitioning to shoots and roots. The total dry weight plant^?1 showed positive relationship with WUE.     

Kinetics of Carbon Mineralization and Sequestration of Sole and/or Co-amended Biochar and Cattle Manure in a Sandy Soil

ABSTRACT

The interactive effect of biochar, cattle manure and nitrogen (N) fertilizer on the dynamics of carbon (C) mineralization and stabilization was investigated in a sandy soil amended with three sole biochar (0, 20 or 40 t ha^?1) or manure (0, 13 or 26 t ha^?1) and four combined biochar-manure levels (20 or 40 t ha^?1 biochar plus 13 or 26 t ha^?1 manure) with or without N fertilizer (0 or 90 kg ha^?1) and CO₂-C evolution measured over 54-d incubation period. Biochar application, solely or combined with manure resulted in lower applied C mineralized (ACM), indicating C sequestration in the soils. Negative attributable effect (AE) of co-application of biochar and manure on C mineralization was observed relative to the sole treatments. Both ACM and AE were negatively correlated with C/N ratio and mineral N content of the soil-mixtures (r ≥ – 0.573; p ≤ 0.01), indicating microbial N limitation. The double first-order exponential model described CO₂-C efflux very well and indicated that ≥94% of C applied was apportioned to stable C pools with slower mineralization rate constant and longer half-life. Cumulative C mineralized and modeled C pools were positively correlated with each other (r ≥ 0.853; p ≤ 0.001) and with readily oxidizable C of soil-amendment mixtures (r ≥ 0.861; p ≤ 0.001). The results suggested that co-application of biochar and manure can promote initial rapid mineralization to release plant nutrients but sequester larger amounts of applied C in refractive C pool, resulting in larger C sequestration in sandy soils.     

Effect of sulphur in the prevention of incipient iron chlorosis in corn

Abstract

Results of a field experiment, comprising elemental S and three commercial preparations of Fe, applied with and without several other factors showed that the application of S was significantly better than that of Fe supplying materials in preventing the incipient chlorosis of corn leaves on the alkaline calcareous soils. Prevention of chlorosis in corn due to sulphur application increased the grain yield of corn 25–31%.

Leaf samples from plants raised with Fe supplying materials were chlorotic even though they contained significantly higher amounts of Fe. Persistence of chlorosis in spite of high Fe content of leaves, vis a vis freedom from chlorosis in spite of low Fe content, suggest that deficiency of Fe was not a factor in chlorosis. Freedom from chlorosis accompanied by significant increases in corn yields due to S application, on the contrary, show that it was the lack of S rather than Fe as the cause of Chlorosis.

When the supply of S is low, Fe seems to be subjected to a great deal of chemical inactivation and under conditions of stress more and more absorption of Fe is necessitated. In all probability the rate of inactivation exceeds the rate of absorption and chlorosis develops. In this situation either the plant's ability to utilize iron is affected or the physiological availability of absorbed iron is very low. Increased S seems to arrest the process of Fe inactivation by providing a better nutritional environment.     

A comparative study on chemical characteristics of tropical soils from volcanic material under forest and agriculture

Abstract

An investigation was conducted to compare differences in chemical characteristics of Costa Rica soils under continuous cultivation and under forest vegetation. Inceptisols from young volcanic material under forest, sugar cane, coffee and pasture, respectively, were sampled in the San Carlos region of Costa Rica, and analysed for pH, organic matter, N, Ca, Mg, K, Na, Al, Fe, Zn and Mn contents. Indications were obtained that continuous cropping for 1 to 22 years with sugar cane resulted in a decrease in Ca and Mg content and an increase in acid extractable Al concentrations, compared to amounts found in forest soils. In soils under coffee the only significant changes were a reduction in soil organic matter, N and Al contents. Exchangeable bases decreased slightly during the first two years, but in fields 15 years under coffee, the content of exchangeable bases was affected slightly, except for a relatively marked decrease in amounts of Mg. Conversion into pasture maintained soil fertility at a level comparable to that found in the forest soil ecosystem. It was concluded that differences in vegetational ecosystems caused soil chemical changes, but deforestation in the tropics did not necessarily result in rapid soil degradation processes. The magnitude of the data showed that the soil in the San Carlos region of Costa Rica had been cultivated for at least 10 to 20 years without producing evidence of excessive deterioration.     

The pH of bodenburg silt loam soil as related to forest cover and time under cultivation

Abstract

Soil pH's were evaluated at three time intervals following land clearing at two locations in the Matanuska Valley. Seasonal fluctuations of pH values over a seven‐year period as determined in water (pH_w,) and 0.01 M CaCl₂ (pH_s) were additionally evaluated at these locations. A statistical rise in soil pH occurred at both locations with clearing and subsequent cultivation. Soil reaction differences related to season and year were not consistent and were not related to a definite pattern. No relationship between monthly or seasonal precipitation and the soil reaction was found. The correlation coefficient between pH_w and pH_s was highly significant. Work of other investigators is discussed in the interpretation of the data collected.     

Magnesium fixation—a possible cause of negative yield responses to lime applications

Abstract

Negative yield responses are common when highly leached soils are limed to neutrality. A number of explanations have been proposed, but very few have been experimentally verified or are entirely acceptable. In this paper the problem is re‐examined and a new possible causal mechanism is proposed.

Data assembled from the literature are used to demonstrate that a consistently observed reduction in Mg uptake by plants when soils are limed to neutrality is often accompanied by a generally ignored reduction in exchangeable soil Mg. Using data for soils of North American and African origin, it is demonstrated that when the soils were limed with pure Ca sources, the level of exchangeable soil Mg was reduced between 36 and 93%. Furthermore, after treatment with a Mg containing liming material, initial increases in the level of exchangeable Mg were followed by similarly large decreases when the soil pH approaches neutrality.

The applicability of known Mg fixation mechanisms is briefly discussed and the suggestion is made that Mg fixation may offer an acceptable explanation for some of the yield depressions observed on liming to neutrality. Research is currently in progress to gather sufficient data to answer the many questions raised.