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1.
Triticum baeoticum and T. urartu are very similar morphologically. By using microsatellite markers it was possible to distinguish between these two species. Microsatellite markers are, therefore, a powerful new tool to support the determination of critical races in diploid wild wheat species. They also allow the discussion of evolutionary pathways within Triticum. 相似文献
2.
《Communications in Soil Science and Plant Analysis》2012,43(15-16):2511-2517
Abstract Two field experiments measured variation of phosphorus (P) concentration in dried tops (plant‐test P) of individual lupin (Lupinus angustifolius cv. Merrit) and wheat (Triticum aestivum cv. Cadoux) plants collected from random locations in experimental plots treated with different levels of superphosphate. Plant‐test P for the individual tops varied by between 4 to 65% of mean values. Coefficient of variation for the 10 individual plants per plot varied from 10 to 24%. For each plot, mean plant‐test P for the 10 individual tops were similar to values for bulk samples of 30 plants collected at random within the plot. It is concluded that a bulk sample of 30 lupin or wheat plant tops need to be collected from uniform areas in farmer paddocks to provide a representative estimated of the current P status of the crop. 相似文献
3.
Tadele Work 《Journal of plant nutrition》2013,36(10):2105-2109
Four durum wheat cultlvars (Triticum turgidum spp. durum Desf.) from different countries of origin (Austria, Ethiopia, and Italy) were investigated. Plants were grown in pots under glasshouse conditions. Immediately after the full development of the flag leaves, these leaves were detached for the screening. Distinct differences in water‐retention capabilty among the cultivars was observed. The drought‐resistant (hardy) types, Valgerardo and Boohai, showed better water retention capabilty than the drought‐sensitive ones, such as DZ‐04–688. Poor yielding cultivars under field conditions were also found to be poor in water‐retention capability and vice versa. The applied method is simple and inexpensive. It adds another procedure when screening for drought resistance. However, it needs further confirmation by cultivars covering a broader range of genetic diversity. 相似文献
4.
Marian Wiwart Elżbieta Suchowilska Wolfgang Kandler Michael Sulyok Paweł Groenwald Rudolf Krska 《Genetic Resources and Crop Evolution》2013,60(8):2359-2373
Nine spring lines of Polish wheat (Triticum polonicum) were compared with Kamut wheat and two common wheat cultivars. Plants were analyzed to determine morphometric parameters (plant height, spike length, spike density, grain weight per spike and single kernel weight) and some chemical properties of grain: content of protein, ash, fat, crude fiber, minerals and mycotoxins. The studied genotypes produced a relatively weak response to infection with Fusarium culmorum which was expressed by a decrease in grain weight per spike and single kernel weight by 13 % and over 6 %, respectively. The grain of T. polonicum was characterized by a significantly higher protein and ash content than the grain of common wheat (by 19.8 and 23.7 %, respectively) and considerably higher concentrations of fat and dietary fiber than Kamut wheat (by 30.2 and 17.4 %, respectively). In comparison with common wheat, the grain of the examined genotypes was significantly more abundant in sulfur, magnesium and potassium as well as zinc, iron, copper and molybdenum. It contained significantly less aluminum and strontium. The inoculation led to a significant increase in fusariotoxin levels in the grain of all studied genotypes, and the average concentrations of the above metabolites were lower in the grain of T. polonicum than in Triticum aestivum. Polish wheat may constitute valuable genetic material for breeding new wheat varieties characterized by a high nutritive value and satisfactory resistance to FHB. 相似文献
5.
《Communications in Soil Science and Plant Analysis》2012,43(15-16):2307-2318
Abstract Few reports highlight the effect of organic matter in improving the properties of saline soils. A laboratory study was conducted to determine the effect of adding farm yard manure (manure), Egyptian clover hay (clover hay), and wheat straw, at 1 and 3% of soil weight on water stability of soil aggregates (WSA), water‐holding capacity (WHC), pH, and electrical conductivity of soil extract (ECe) of a normal, saline, and saline sodic soil. After 90 and 180 days, WSA and WHC increased, while pH and ECe decreased. Soil properties improved most by adding 3% manure to all the soils. Wheat grown in these soils indicated significant differences for various growth and yield variables, especially the root growth, number and area of green leaves, and grain yield. Organic matter added to these soils increased WSA and WHC and decreased pH and Ece. The WHC had no correlation with pH, but was negatively correlated with Ece. Increased WSA caused the leaching of excess ions and reduced their toxicity, while enhanced WHC increased the availability of water to the roots and promoted growth. It is concluded that manure ameliorated salt affected soils and promoted wheat growth better than clover hay and wheat straw. 相似文献
6.
Yadvinder-Singh R. K. Gupta H. S. Thind Bijay-Singh Varinderpal-Singh Gurpreet-Singh Jagmohan-Singh J. K. Ladha 《Biology and Fertility of Soils》2009,45(7):701-710
Poultry litter (PL) is an important nutrient source; however, no information is available regarding its value in supplying
N and P in rice–wheat (RW) production. A three-year field study was conducted at Ludhiana, Punjab, India on a loamy sand soil
to identify optimum combination of PL and N and P fertilizers for a sustainable RW production. The litter was applied to rice
at 5 Mg ha−1 as a single application and supplemented with different rates of N. The residual effect of PL and the direct effects of the
different combinations of N and P were studied in the following wheat. Nitrogen and P mineralization from PL was studied under
controlled conditions in the laboratory, and macronutrient input–output balances were estimated from field results. About
46% of the N from PL was released after 60 days of incubation. The release of P from the PL occurred mainly during the initial
20 days after incubation, accounting for 15–17% of the total P. Combining PL with fertilizer N (40 kg ha−1) increased rice yield and nutrient uptake similar to what was obtained with the application of recommended fertilizer N (120 kg
ha−1). In the following wheat, the residual effect of PL was equal to 30 kg N ha−1 and 13 kg P ha−1. After three annual cropping cycles and PL application, mean soil organic C increased by 17%, Olsen-P by 73%, and NH4OAc-extractable-K by 24%. Most treatments had positive P but negative K balances. About 11% of the net P balance was recovered
from the soil as Olsen-P. The study showed that optimum N and P fertilizer doses for an RW system receiving 5 Mg ha−1 of PL are 40 kg N ha−1 for rice and 90 kg N + 13 kg P ha−1 for the following wheat. Safe and effective management of PL should be based on P balance, particularly when regular applications
of PL are to be made in the RW system. 相似文献
7.
《Communications in Soil Science and Plant Analysis》2012,43(17-18):2223-2239
Abstract Sustaining agricultural productivity and environmental quality requires efficient use of nitrogen (N) fertilizer by crops. A zero‐tillage study was conducted over a 9‐yr period in southwestern Saskatchewan to determine the influences of snow trapping and N fertilizer management, on efficiencies of N uptake and of N utilization for annually grown spring wheat (Triticum aestivum L.). We assessed the effects of rates (0–100 kg/ha), placement (deep banding, broadcast), and time of application of N (fall, spring). Multiple regression, was used to relate the N in grain, straw, and plant (above‐ground), the efficiencies of N uptake and N utilization, and N harvest index (NHI) to water use by the crop (WU), soil nitrate‐N (NO3‐N) in 0–60 cm depth measured in fall (SN), rate of fertilizer N(FN), and years of study (Yr). The relationships for N in grain and plant were highly significant (R2 = 0.85***); those for straw N (R2 = 0.68 ***) and N utilization efficiency (R2 = 0.60***) were significant but less precise, while that for NHI (R2 = 0.40***) had poor precision. Plant N was greater for springthan for fall‐applied N, and for deep‐banded than for broadcast‐N. Nitrogen utilization efficiency ranged between 20–42 kg grain/kg plant N, was inversely related to FN, and lower for spring‐applied than fall‐ applied N, but placement had little effect. Available water and FN had greater influence on characteristics studied than placement or timing of N application. Uptake efficiency of N increased with SN but decreased with FN, probably indicating more efficient uptake of SN in this zero‐tillage continuous wheat study. The relationships developed should be useful to modellers for estimating the characteristics studied, on medium‐textured, aridic and typic borolls. 相似文献
8.
《Communications in Soil Science and Plant Analysis》2012,43(17-18):2925-2937
Abstract The leaching of phosphorus (P), nitrogen (N), and radionuclides (232Th, 226Ra, 228Ra, and 40K) from Joel sands amended with red mud/gypsum (RMG) at 9 rates (0, 2, 4, 8, 16, 32, 64, 128, and 256 t/ha) was measured using columns. Intense leaching conditions (34 mm/day for 12 days) and a high rate of applied P (320 kg/ha as superphosphate) and N (680 kg/ha as ammonium nitrate) were used to simulate extremes of irrigated vegetable production on the Swan Coastal Plain. Addition of the highest rate of RMG (256 t/ha) reduced leaching of fertiliser P and ammonium‐nitrogen (NH4‐N) by 85% and 50%, respectively, compared with 0 t/ha after 12 days. At 641 RMG/ha P leaching was reduced 50% compared with 0 t/ha. Nitrate‐nitrogen (NO3‐N) leaching was not affected by addition of RMG. Reduced leaching of NH4‐N was attributed to an increase in cation exchange capacity of the soil with the addition of RMG. Bicarbonate‐extractable P in the soil increased with rate of RMG to >50 μg P/g soil at 256 t/ha. This indicates that soil testing of residual P could be used to reduce P inputs to vegetable crops after soils were amended with RMG. This would further reduce the impact of vegetable production on the water systems of the Swan Coastal Plain and extend the period of effectiveness of RMG amended soils. The increase in 232Th specific activity in Joel sand amended with RMG was well below statutory limits even at the highest rate. Neither 40K nor 226Ra were detectable in RMG amended sands up to 2561 RMG/ha. There was no evidence of leaching of 226Ra or 228Ra at any rate of RMG. These results suggest that the use of RMG amendment on commercial horticultural properties on the Swan Coastal Plain could be feasible. 相似文献
9.
Yongqiu Xia 《Soil Science and Plant Nutrition》2013,59(2):320-330
Due to increased economic and environmental concerns, developing statistical models of crop yield has become one of the most important steps in determination of the cost effective rates (CERs) of nitrogen (N) fertilization. Although quadratic models are commonly used to describe wheat and paddy rice yield response to fertilizer rates in the Taihu Lake region of China, few studies have investigated why this model is selected over others. This study evaluated quadratic, exponential and square root models describing the wheat (Triticum aestivum L.) and rice (Oryza sativa L.) yield response to N fertilizer when determining the CERs, while also considering the environmental costs of N losses. All models fit the data almost equally well when evaluated using the variability and standard error statistics. However, there were marked discrepancies among models when calculating the CER of fertilization and the economic returns form Z-test. The quadratic model had a greater CER value (194?kg N ha–1 for rice and 185?kg N ha–1 for wheat) averaged over all sites than the exponential and square root models. The residuals obtained from the quadratic models were closer to a normal distribution than those of the other two models, indicating a less systematic bias. The mean economic uncertainties resulting from the quadratic model were more dependable than the other two models evaluated. These results show that the quadratic model best describes the rice and wheat yield responses and tends to indicate the optimal rates of fertilization while considering the environmental and economic effects of over fertilization for rice and wheat in the Taihu Lake region. 相似文献
10.
The phenotypic performance of a genotype is not necessarily the same under diverse agro-ecological conditions. Two commercial wheat cultivars and 33 wheat landrace varieties were selected for screening drought tolerance and the investigation of genotype × environment interactions (GEI). The study site experiences drought stress at reproductive stages. Fully irrigated along with two drought stress trials at early heading (EHS) and 50% heading stages (HDS) were performed in 2 years. The highest antioxidant and proline contents were accumulated under EHS. Reduction in cell membrane stability in EHS was 90.9% in 2011–2012. The lowest grain yield belonged to EHS (3.2 t ha?1) while the highest (6.8 t ha?1) was observed in the irrigated trial. GEI analysis indicated that the Pinthus’s coefficient was not an efficient index for screening GEI. Positive correlations were found between GEI parameters such as regression deviation, Wricke’s ecovalence and Shukla’s variance. Regression coefficients over trials ranged from 0.65 to 1.42, indicating genotypes had different responses to environmental changes. Regression models, GEI variances and grain yield showed that some varieties (KC4557, KC4862, KC3891, KC4495, and KC4633) had higher stability under drought stress and fully irrigated conditions and can be involved in breeding programs for drought stress tolerance. 相似文献
11.
《Communications in Soil Science and Plant Analysis》2012,43(5-6):669-678
Abstract The NH4HCO3‐DTPA (AB‐DTPA), 1 MNH4HCO3, 0.005 M DTPA, pH=7.6, was proposed as a multi‐element extractant, for evaluating macro and micronutrients availability to plants. AB‐DTPA was also evaluated as a soil test, for assessing boron availability and toxicity to alfalfa. In a pot experiment, ten soils of Northern Greece were used to assess AB‐DTPA as an extractant of available boron to wheat (Triticum aestivum L., cv. Yecora), in comparison with hot water and saturation extract. Boron (B) was added as borax (Na2B4O7*10H2O) to the ten soils, at rates equal to 0, 3, and 5 mg B kg‐1. Wheat was grown in pots containing the boron amended soils to the stage of tillering, and dry aboveground biomass, B concentration and B uptake by wheat were determined. AB‐DTPA extractable B was significantly greater than saturation extract and similar to hot water at each B application rate, and was correlated significantly with hot water (r=0.84), or with saturation extract (r=0.48). Extractable boron by all extractants, boron concentration in wheat and boron uptake were significantly affected by the soil x B application rate interaction. In assessing B availability to wheat using AB‐DTPA as a soil test, CEC should be included in the regression equation for B concentration, or pH for B uptake. However, the corresponding adjusted coefficients of determination for B concentration (adjusted R2=0.46) and B uptake (adjusted R2=0.48) were similar or lower to those of hot water (adjusted R2=0.45 and 0.60, respectively) and the saturation extract (adjusted R2=0.70 and 0.49, respectively), when the latter two soil tests were used in the regression equations without the inclusion of any soil property. 相似文献
12.
Shephard GS van der Westhuizen L Gatyeni PM Katerere DR Marasas WF 《Journal of agricultural and food chemistry》2005,53(23):9293-9296
The fumonisin mycotoxins are mainly produced by the fungi Fusarium verticillioides and Fusarium proliferatum, which are both field pathogens of maize. The natural occurrence of fumonisins has been verified in maize and a large range of maize-based products in many countries of the world. However, occasional reports have emerged of fumonisins being detected in wheat, despite the main producing fungi not being pathogens of this cereal. An investigation was conducted into a recent report of the natural occurrence of fumonisins in the 2003/2004 South African wheat crop at levels up to 1.7 mg/kg, as determined by immunoaffinity column cleanup and direct fluorometric measurement. An AOAC International high-performance liquid chromatographic (HPLC) method for the determination of fumonisins in maize was modified and validated for the determination of fumonisins in spiked wheat samples. HPLC analysis of the wheat samples previously found to be positive for fumonisins revealed no detectable (<5 microg/kg) fumonisins in the 30 samples analyzed. These results, which lay doubt on previous reports of fumonisins in wheat, emphasize the fact that screening methods, especially if used outside their range or matrix of applicability, can produce false positive results despite the use of immunoaffinity cleanup. Such results should be validated and confirmed with a more definitive technique. 相似文献
13.
Mayer F Haase I Graubner A Heising F Paschke-Kratzin A Fischer M 《Journal of agricultural and food chemistry》2012,60(6):1350-1357
Partial sequencing of the γ-gliadin gene of 62 spelt and 14 soft wheat cultivars was performed. Fifty-six of the 62 spelt cultivars and 13 of the 14 soft wheat cultivars were shown to exhibit the typical spelt or soft wheat γ-gliadin sequence, respectively. Exceptions were ascribed to crossbreeding of soft wheat and spelt. Using the typical soft wheat γ-gliadin sequence, two alternative DNA-based analytical methods were developed for the detection and quantification of spelt flour "adulteration" with soft wheat. A simple and fast detection of soft wheat in spelt flours could be achieved by restriction fragment length (RFLP) analysis. In combination with lab-on-a-chip capillary gel electrophoresis (LOC-CE) the soft wheat proportion could be estimated. Heteroduplex formation served as additional confirmation for the presence of spelt besides soft wheat. Hence, RFLP-LOC-CE constitutes a perfect analysis tool for the quality control of cereal seeds and pure cultivars. A precise quantification of soft wheat "adulterations" in spelt flour down to 1% could be achieved by the developed real-time PCR method. The calibration parameters of the real-time PCR assay fulfilled the minimum performance requirements of the European Network of GMO (genetically modified organisms) Laboratories (ENGL). 相似文献
14.
Khadijeh Alijani Mohammad Jafar Bahrani 《Archives of Agronomy and Soil Science》2013,59(14):1984-1997
ABSTRACTConservation tillage practices have gained interests. A 2-year field study (2014–2015) was conducted to evaluate four N rates (0, 69, 138, and 207 kg N ha?1) effects on irrigated sweet corn (Zea mays L.) grown with or without wheat (Triticum aestivum L.) residue removal and conventional (CT), reduced (RT), or no-tillage (NT) practices near Shiraz, Iran. After 2 years, maximum marketable yield occurred at 156 and 159 kg N ha?1 under CT and NT, respectively, while yield was tended to be increased with increasing N rates under RT. Increasing N rate increased total plant N uptake, shoot, and grain N accumulation. The lowest nitrogen use efficiency (NUE) was obtained under NT, while RT and CT either showed similar effects or RT was superior over CT. Soil total N was greater under CT and residue retention showed 18% and 14% higher N concentration than residue removal in 2014 and 2015, respectively. Soil organic matter was the highest (2.59%) under RT with residue retention and 138 kg N ha?1. Conservation tillage needs more N rather than CT during transition from conventional to conservation agriculture practices, but it is based on the short-term results and evaluation of long-term experiment is highly recommended. 相似文献
15.
Martin Kulhánek Jiří Balík Jindřich Černý Lucie Peklová Ondřej Sedlář 《Archives of Agronomy and Soil Science》2013,59(1):67-74
Precise field experiments were established on two sites with winter wheat under different soil-climatic conditions in the Czech Republic. Four treatments were fertilized with same dose of nitrogen (200 kg N ha?1) and increasing dose of sulphur (0, 10, 20 and 40 kg S ha?1) using nitrogen–sulphur (N–S) fertilizer with calcium sulphate form. Soil and plant aboveground biomass samples were taken in the stages of development BBCH 26–28; 30–32; 37–39; 49–51. The winter wheat grain yield ranged between 7.20 and 10.86 t ha?1 and had an increasing trend with increasing sulphur dose. Although the differences were usually not statistically significant, there were found increasing tendencies of bioavailable sulphur content in soil with increasing S split doses. Soil S content decreased with time probably due to plant uptake. Sulphur dose did not influence the S content in plant aboveground biomass. The total S contents in grain after harvest ranged between 0.09% and 0.14% and were not significantly influenced with the fertilizing treatment. The same statement is valid for the S content in straw, which ranged between 0.03% and 0.11%. Both, S content in winter wheat seeds and straw were strongly influenced by the site conditions. 相似文献
16.
The variation for -amylaseisozymes was analyzed in 71 tetraploid wheat (AABB genome)landraces from Ethiopia, including accessions of Triticumdicoccon Shrank, T.turgidum L., T.durum Desf., T.pyramidale Percival and T.aethiopicum Jakubz., by thin-layerpolyacrylamide gel isoelectric focusing. Four zymogram phenotypeswere obtained from all the materials studied. Except inT. dicoccon, however, thestandard pattern of the durum wheat variety, LD222, was predominant.T. dicoccon showed twozymogram types that differed for the absence or consistently weakactivity of band 18(-Amy-B1)of the malt type. Band 1(-Amy-B3)of the malt type was fixed in T.dicoccon and present in only 10% of thefree-threshing (FT) types. Generally, the resultsindicated that the variation for-amylase isozymes in cultivatedtetraploid wheats, including landraces from secondary centers, is lowpossibly due to the founder effect or as a result of selection. Thedata were useful for inferences about the evolutionary history ofEthiopian wheat landraces. It is speculated thatT. dicoccon was the firstwheat to arrive in the Ethiopian highlands ca.5000 years ago. However, it is not known whether the present day FTEthiopian tetraploid wheat landraces are direct descendants ofT. dicoccon, or whetherthey were introduced independently. The clear differences in-amylase zymogram patterns favor the latterhypothesis. However, the presence of band1 in some of the FT types indicated the occurrence of geneflow between the FT types and T.dicoccon, which may also explain thequantitative nature of spike threshability in these landraces.Possible implications for durum wheat breeding arediscussed. 相似文献
17.
K. C. Lakkineni A. Sivasankar P. A. Kumar T. V. R. Nair Y. P. Abrol 《Journal of plant nutrition》2013,36(10):2213-2217
Application of 10 mM urea to the flag leaf of wheat plants enhanced in vivo urease activity several fold. Photosynthetic rate was also increased considerably. There were significant differences in the leaf internal carbon dioxide (CO2) concentrations between the urea‐treated and untreated leaves. The finding that carbon (14C) was detected in the ethanol extract of the leaves fed with 14C‐urea suggests that CO2 released from urea is re‐fixed by the leaves. 相似文献
18.
Munir Ahmad Mohamed H. El-Saeid Muhammad Abrar Akram H. R. Ahmad Haseeb Haroon Abid Hussain 《Journal of plant nutrition》2016,39(9):1283-1291
In this study, impact of silicon (Si) application on wheat performance under drought stress is studied. Experimental soil was sandy clay loam with an average pH of 8.01, electrical conductivity (EC) of 2.36 dSm?1, and calcium carbonate (CaCO3) content of 2.16%. Soil was severely deficient in organic matter (<1%). Average extractable phosphorus (P) and potassium (K) concentration was 230 and 5.21 mg kg?1, respectively. Silicon potassium metasilicate (K2SiO3) was applied at the rate of 0 and 12 kg/ha with three canal water irrigation frequencies including two, three, and four under randomized complete block design (RCBD) factorial fashion with three replications. Results indicated that drought stress significantly reduced plant height, spike length, shoot fresh weight, and number of spikelets/spike, eventually enhancing wheat yield. Concentration of K+ in shoot (28.65 mg g?1) and grains (3.51 mg g?1) increased with Si application, which helped to maintain water potential in plant even under reduced moisture level in plants and soil, ultimately producing more yield and biomass under drought stress conditions. 相似文献
19.
Fucui Li Jian Dai Qiang Li Cheng Xue Hubing Zhao 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2013,63(5):398-407
Summer fallow soil management is an important approach to improve soil and crop management in dryland areas. In the Loess Plateau regions, the annual precipitation is low and varies annually and seasonally, with more than 60% concentrated in the summer months from July to September, which is the summer fallow period in the winter wheat-summer fallow cropping system. With bare fallow in summer as a control, a 3-year location-fixed field experiment was conducted in the Loess Plateau to investigate the effects of wheat straw retention (SR), green manure (GM) planting, and their combination on soil water retention (WR) during summer fallow, winter wheat yield, and crop water use and nitrogen (N) uptake. The results showed that SR increased soil WR during summer fallow by 20 mm on average compared with the control over 3 experimental years but reduced the grain yield by 8% in the third year and the grain N content by 6–15% in all 3 years. In contrast, GM planting markedly reduced soil WR by 16 mm and 33 mm in the first and third year, respectively, but increased water use efficiency (WUE) by 16% in the third year and nitrate N accumulation in 0–100 cm soil at winter wheat sowing. Their combination did not significantly affect the soil WR or the soil nitrate N content in any of the 3 years, but did increase WUE by 11% in the third year and grain yield by 2.6% in the second year. In conclusion, the combination of SR and GM planting mitigated the negative effects of the individual measures, providing a feasible method for summer fallow management in the semiarid Loess Plateau in China and other similar regions. 相似文献
20.
《Communications in Soil Science and Plant Analysis》2012,43(5-6):597-605
Abstract In Morocco,response of dryland wheat (Triticum aestivuro) to ? has not been related to soil ? availability index. The objectives of the experiments reported were to determine the critical NaHCO3‐extractable ? level in soils of Settat Province in Morocco and to compare the effect o‐f banding with broadcasting of concentrated superphosphate (CSP) for wheat, crops. Eighteen ?‐P factorial experiments were conducted on three different soil types (Rendolls, Caloixerolls and Chromoxererts) with different ? availability indexes and lime levels in 1985–86 and 1986–87. The ? rates were 0, 9, and 18 in 1985–86 and an additional 36 kg P/ha rate in 1986–87. The rainfall levels were 300 mm with an excellent distribution and 220 mm with a poor distribution in the above years, respectively. In the latter year, a P placement study was conducted on a Rendoll with a NaHCO3‐P level of 4.5 mg/kg. For the placement study the rates were 0, 9, 18, 36, and 54 kg P/ha. The grain yield response to ? averaged 8% in the wet year and 40% in the drier year. The maximum yields obtained were close to 3 and 1 Mg/ha for the above years, respectively. A critical level of 5 mg/kg of NaHCO3‐P was obtained, separating responsive from nonresponsive soils for a relative yield of 90%. The ? placement study showed that yield response to broadcast ? reached a plateau at 9 kg P/ha, but the response to banded ? continued up to the highest rate. This shows that the banding effect of CSP is more than a simple ? nutrition effect 相似文献