共查询到20条相似文献,搜索用时 46 毫秒
1.
Rajat Goswami Rajkumar Uttamrao Zunjare Suphiya Khan Aanchal Baveja Vignesh Muthusamy Firoz Hossain 《Plant Breeding》2019,138(2):174-183
Vitamin A deficiency in humans is a widespread health problem. Quality protein maize (QPM) is a popular food rich in lysine and tryptophan, but poor in provitamin A (proA). Here, we report the improvement of an elite QPM inbred, HKI1128Q for proA using marker‐assisted introgression of crtRB1‐favourable allele. HKI1128 was one of the parental lines of three popular hybrids in India and was converted to QPM in our earlier programme. Severe segregation distortion for crtRB1 was observed in BC1F1, BC2F1 and BC2F2. Background selection by 100 SSRs revealed mean recovery of 91.07% recurrent parent genome varying from 88.78% to 93.88%. Across years, introgressed progenies possessed higher mean β‐carotene (BC: 9.22 µg/g), β‐cryptoxanthin (BCX: 3.05 µg/g) and provitamin A (proA: 10.75 µg/g) compared to HKI1128Q (BC: 2.26 µg/g, BCX: 2.26 µg/g and proA: 3.38 µg/g). High concentration of essential amino acids, viz. lysine (mean: 0.303%) and tryptophan (0.080%) in endosperm, was also retained. Multi‐year evaluation showed that introgressed progenies possessed similar grain yield (1,759–1,879 kg/ha) with HKI1128Q (1,778 kg/ha). Introgressed progenies with higher lysine, tryptophan and proA hold immense potential as donors and parents in developing biofortified hybrids. 相似文献
2.
Abdullah A. Jaradat 《Euphytica》2018,214(8):141
Defining a minimum set of phenotypic traits that can integrate ontogeny and structure of Brassica napus L. is required for breeding and selection of high yielding and adapted genotypes to the short growing season of the upper Midwest, USA. Forward phenomics was instrumental in striking a balance between accuracy, timing and speed of capturing multi-level, spatiotemporal data at different scales of integration. Quantitative and categorical data digitally recorded, measured or scored on whole canopies, single plants, single leaves, and single siliques; and on random mature seed samples of entries in a phenotyping nursery of B. napus were used to identify plant traits that can integrate the effects of time (ontogeny) and space (architecture) on oil%, and to develop a multilevel-multitrait protocol based on field and laboratory characterization of phenotypic and agronomic data while accounting for fixed and random sources of variation when interpreting components of phenotypic variance. Traits conferring tolerance to low temperatures during germination and early seedling growth included fast emergence, early vigor, early flowering combined with short duration of bolting-to-flowering, and early maturity. To approximate rapeseed yield potential in the upper Midwest, USA, genotypes with biomass?>?6.0 Mg ha?1, seed?>?3.5 Mg ha?1, oil?>?1.75 Mg ha?1 and protein yield?>?0.75 Mg ha?1 are envisioned. A subset of adaptive traits has been identified that can be combined in a selection index to develop a plant ideotype for B. napus. 相似文献
3.
Maturity Class and P Effects on Soya Bean Grain Yield in the Moist Savanna of West Africa 总被引:1,自引:0,他引:1
I. J. Ogoke R. J. Carsky A. O. Togun K. E. Dashiell 《Journal of Agronomy and Crop Science》2003,189(6):422-427
Field trials were replicated at four sites in the moist savanna ecological zone of West Africa to study the effect of maturity class and phosphorus (P) rate on grain yield and total protein yield (TPY) of some new soya bean varieties. Grain yield and TPY averaged 1.43 Mg ha?1 and 587 kg ha?1, respectively. Without P application grain yield and TPY were not significantly different among the varieties. In addition, at zero P treatment, grain yield and TPY were not significantly different among three sites where available P was 6.2 mg kg?1 or less. P application depressed grain yield and TPY at a site where the available soil P was high (16.2 mg kg?1). With P application grain yield and TPY were in the range of 1.2–2.28 Mg ha?1 and 505–948 kg ha?1, respectively, for the varieties compared with 0.99–1.12 Mg ha?1 and 454–462 kg ha?1 when P was not applied. The response of grain yield to 30 kg P ha?1 was substantial at Gidan Waya (113 %), Kasuwan Magani (63 %) and Fashola (60 %), three sites where available soil P was low. The application of 30 kg P ha?1 increased grain yield by 21 % in early, 26 % in medium and 58–70 % in the late varieties. Significant variety by P rate interaction effects were observed on grain yield and TPY but not on grain protein concentration (GPC). TPY showed greater response to P in the late varieties than in the early or medium. While seed size correlated significantly and positively with GPC, P application had no significant effect on GPC. 相似文献
4.
机插条件下低氮密植栽培对“早晚兼用”双季稻产量和氮素吸收利用的影响 总被引:7,自引:0,他引:7
为了缓解长江中下游双季稻区机插双季稻生育期不配套的矛盾,2014—2015年早晚两季均以常规早稻品种中嘉早17为材料,在大田栽培条件下研究机插密度(36.4、28.6、19.0穴m–2)与施氮量(0、110~140、176~189 kg N hm–2)对机插双季稻产量及氮肥利用率的影响。结果表明:采用"早晚兼用"机插双季稻栽培模式有利于早、晚2季周年高产,以"高密+高氮"处理产量最高,2年分别达到16.94 t hm–2和16.99 t hm–2,但与"高密+低氮"处理的产量差异不显著;氮肥利用率随氮肥用量增加而下降,随栽插密度增加而提高,以"高密+低氮"处理最高,2年4季分别为62.77%、55.75%、65.82%、64.37%,比"高密+高氮"处理分别提高12.11%、9.01%、8.49%、2.14%;"高密+低氮"处理与"低密+高氮"处理相比,群体干物质积累量及辐射利用率均有一定的优势。由此可见,在此模式下适当增加机插密度,减少氮肥用量,既可实现高产,又能显著提高氮素利用率。采用"早晚兼用"品种搭配模式,低氮、密植栽培可作为长江中下游双季稻区机插双季稻生产的关键技术。 相似文献
5.
Luis Cláudio de Faria Patrícia Guimarães Santos Melo Thiago Lívio Pessoa Oliveira de Souza Helton Santos Pereira Leonardo Cunha Melo 《Euphytica》2018,214(9):164
The final field trials to evaluate elite lines developed by the Embrapa national common bean breeding program generated a phenotypic database composed by agronomic traits of 84 elite lines and nine cultivars over a 16-year period (1993–2008) and 450 environments in all Brazilian growing areas. The main goal of this study was to use this database as a model to compare the consistency of the results obtained from indirect methods for genetic progress estimation for grain yield in common bean breeding, using the direct method as a reference. Three indirect methods for genetic progress estimation were evaluated: (1) linear regression with unadjusted averages, (2) linear regression with averages adjusted by the mixed models, and (3) linear regression with averages adjusted by a fixed effects model with the error exception. The genetic progress estimated by the direct method was 31.3 kg ha?1 per year (1.34%**). This value was considered as the reference estimate, since it was calculated using the grain yield data from final field trials with all common bean lines evaluated under the same environmental conditions. The estimate obtained using the regression with unadjusted averages of the three best lines by cycle was 25.66 kg ha?1 per year (1.26%*), similar to the result obtained by the direct method. Considering both methods using fixed and mixed models, the genetic gain estimates were statistically null (0.42% and 0.45%, respectively). Therefore, the regression method with unadjusted means was more informative than the other indirect methods. 相似文献
6.
B. Märländer 《Journal of Agronomy and Crop Science》2005,191(1):64-74
Genetically modified sugar beet varieties have been developed to be tolerant to glyphosate and glufosinate. To date, research regarding other active ingredients did not result in additional herbicide‐tolerant varieties and the approval of glufosinate‐tolerant varieties for market access has been withdrawn by the applicant. Therefore, only glyphosate‐tolerant varieties could be introduced for cultivation in the short run. Results concerning efficacy and cost of weed control using these varieties and the complementary herbicides were extensively reported in various contributions, mostly on a national level. Based on these results, the economics of weed control for sugar beet production in Europe were reviewed and aspects of integrated control, risk management, and issues of sustainable development of crop production are discussed. Efficient weed control is possible in almost any field situation with glyphosate at about 2 kg a.i. ha?1, compared with conventional herbicides at 6 kg ha?1 or higher, depending on weed infestation level. Cost savings for weed control with glyphosate would amount to an average of €150 ha?1, without any great deviation across different sites and states. A technology fee of about €40 ha?1 is assumed. The high selectivity of glyphosate may result in a 1–3 % higher yield performance of the crop. All assumptions being considered, total cost savings of €180 × 106 year?1 were calculated for the area of 1.7 × 106 ha in the main EU sugar beet‐growing countries. A risk management by implementing a monitoring programme is compulsory, and systems of identity preservation or quality assurance are needed in order to enable the production of conventional and genetically modified sugar beet in coexistence. To date, costs are unknown for these measures. Because of the favourable ecotoxicological behaviour of glyphosate and the possibility of threshold‐based weed control, this new technology could provide an excellent option towards sustainable development of the crop. However, political reasons and the lack of acceptance of genetically modified varieties by the consumer have prevented the market entry of GMHT sugar beet to date, so that conventional herbicides will continuously be used in the future. 相似文献
7.
Wheat Cultivars Adapted to Post-Heading High Temperature Stress 总被引:3,自引:0,他引:3
The existence of genetic variation in wheat for tolerance to high temperature stress has been reported but cultivars released for a particular production system often are not characterized. The objective of this study was to identify and describe the characteristics of wheat cultivars adapted to production systems with risks of high temperature during the post‐heading period. Fifteen diverse wheat cultivars and one unreleased genotype were evaluated at the Texas A&M University Agricultural Research and Extension Center, Uvalde, TX, during two seasons characterized by daily maximum temperatures as high as 36 °C. Measurements during both seasons included days to heading, days to physiological maturity and grain yield. Large and significant (P < 0.05) grain yield differences were measured among cultivars within each season. Yield varied between 2979 and 4671 kg ha?1 in the first season and between 1916 and 5200 kg ha?1 in the second season. Late planting in the second season delayed heading date resulting in the post‐heading period to coincide with periods of high temperatures. Cultivars that headed early, in general, yielded better than cultivars that headed later within each season with yield reduction of 35.3 kg ha?1 in the first season and 91.0 kg ha?1 in the second season for every 1 day delay in heading after mid‐March. Early‐heading cultivars outperformed later‐heading cultivars because of two distinct advantages: the early‐heading cultivars had longer post‐heading and, therefore, longer grain filling period than the later‐heading cultivars. In addition, early‐heading cultivars completed a greater fraction of the grain filling earlier in the season when air temperatures were lower and generally more favourable. The advantage of earlier‐heading cultivars was also manifested in the amount of green leaves retained to anthesis. Earlier‐heading cultivars produced fewer total leaves per tiller but retained more green leaves and lost fewer leaves to senescence at anthesis than later‐heading cultivars. The results suggest that early heading is an important and effective single trait defining wheat cultivars adapted to production systems prone to high temperature stress during the post‐heading period. 相似文献
8.
V. S. Bhatia P. Singh A. V. R. Kesava Rao K. Srinivas & S. P. Wani 《Journal of Agronomy and Crop Science》2009,195(6):455-463
To assess the scope for enhancing productivity of groundnut (Arachis hypogaea L.) in India, well‐calibrated and validated CROPGRO‐Peanut model was used to assess potential yields (water non‐limiting and water limiting) and yield gaps of groundnut for 18 locations representing major groundnut growing regions of India. The average simulated water non‐limiting pod yield of groundnut for the locations was 5440 kg ha?1, whereas the water limiting yield was 2750 kg ha?1 indicating a 49 % reduction in yield because of deficit soil moisture conditions. As against this, the actual pod yields of the locations averaged 1020 kg ha?1, which was 4420 and 1730 kg ha?1 less than the simulated water non‐limiting and water limiting yields, respectively. Across locations, the simulated water non‐limiting yields were less variable than water limited and actual yields, and strongly correlated with solar radiation during the crop season (R2 = 0.62, P ≤ 0.01). Simulated water limiting yield showed a significant positive, but curvilinear relationship (R2 = 0.73, P ≤ 0.01) with mean crop season rainfall across locations. The relationship between actual yield and the mean crop season rainfall across locations was not significant, whereas across seasons for some of the locations, the association was found to be significant. Total yield gap (water non‐limiting minus actual yields) ranged from 3100 to 5570 kg ha?1, and remained more or less unaffected by the quantity of rainfall received across locations. The gap between simulated water non‐limiting and water limiting yields, which ranged from 710 to 5430 kg ha?1, was large at locations with low crop season rainfall, and narrowed down at locations with increasing quantum of crop season rainfall. On the other hand, the gap between simulated water limiting yield and actual farmers yield ranged from 0 to 3150 kg ha?1. It was narrow at locations with low crop season rainfall and increased considerably at locations with increasing amounts of rainfall indicating that type of interventions to abridge the yield gap will vary with the rainfall regimes. It is suggested that improved agronomic management (such as high yielding cultivars, balance crop nutrition and control of pest and diseases) in high rainfall regimes and rainfall conservation and supplemental irrigations in low rainfall regimes will be essential components of the improved technologies aimed at abridging the yield gaps of groundnut. 相似文献
9.
Future maize (Zea mays L.) genetic gains are dependent on the incorporation of unique and useful genetic diversity to breeding programs actively improving germplasm and developing cultivars. Our ultimate goal is to increase the genetic diversity currently available in early maturing maize hybrids by developing novel lines that can be utilized competitively in the northern US Corn Belt. A long-term breeding project (EarlyGEM) was initiated to move US Germplasm Enhancement Maize (GEM) germplasm northward and westward. Nine out of 152 breeding crosses were adapted and data from one breeding cross is presented. Five hundred BC1:S1 lines derived from (AR16026:S17-66-1-B × ND2000) × ND2000 were advanced, selected, and crossed to several commercial testers for early and late generation hybrid testing. Experiments were arranged in various partially balanced lattice designs and grown across 23 North Dakota (ND) environments. Data showed experimental GEM-derived hybrids had better grain yield (10.4 vs. 9.2 t ha?1), test weight (72.5 vs. 70.1 kg h L?1), extractable starch (67.8 vs. 64.2%) and fermentable starch, grain oil (4.3 vs. 3.5%), and grain protein (10.5 vs. 9.4%) when compared to popular hybrids at similar grain moisture at harvest. This is the first research incorporating GEM-derived tropical and late-temperate genetic materials for inbred line development representing a relative maturity (RM) below 90 days. As a consequence of these breeding efforts GEM materials were adapted to the northern US Corn Belt and are not only sources of useful and unique novel genetic diversity but also competitive products for industry use as requests for experimental EarlyGEM lines have been extensive. This research has practical implications with regards to new ways of conducting maize breeding for high latitudes. 相似文献
10.
Research was undertaken to determine the response of newly planted saffron to the application of different levels of nitrogen (0, 50 and 100 kg N · ha?1 · year?1), phosphorus (0, 25, and 50 kg P2O5 · ha?1 · year?1), and composted cow manure (0, 20, and 40 tons · ha?1 · year?1) in terms of fresh flower weight (FFW), saffron yield (SY) and leaf biomass. The experiments were conducted in Birjand, and Ghaen, Khorasan province, Iran, from 1991 to 1993. Significant differences were found between the two locations and among the years within each location for FFW and SY. Averaged over all treatments and years, mean values for FFW and SY were 644.3 and 9.1 kg · ha?1, respectively, at Birjand, and 296.0 and 3.7 kg · ha?1, respectively, at Ghaen. At Birjand, mean FFW in the three consecutive years was 229.0, 796.2, and 907.8 kg · ha?1 and mean SY was 3.4, 10.6, and 13.4 kg · ha?1. The corresponding means at Ghaen were 87.5, 225.9, and 574.7 kg · ha?1 for FFW and 1.3, 3.2, and 6.7 kg · ha?1 for SY. Simple correlation coefficients between FFW and SY were positive and highly significant. At both locations, FFW and SY increased significantly from year to year. The rate of increase, however, decreased with the age of the saffron field because of overcrowding of new corms. Different combinations of fertilizers had either a negative or nonsignificant effect on FFW and SY. The application of phosphorus fertilizer did not result in increased FFW and SY. The application of 40 tons · ha?1 of cow manure in the first year followed by no fertilizer in the second year and by 20 tons · ha?1 in the third year increased FFW and SY at Birjand. The use of 100 kg · ha?1 nitrogen only in the third year also increased FFW and SY at Birjand. At Ghaen, only the application of 50 kg · ha?1 nitrogen in the third year resulted in increased FFW and SY. 相似文献
11.
A. P. Ibanda G. M. Malinga G. A. Tanzito D. Ocan A. Badji N. Mwila U. Msiska T. L. Odong J. Karungi P. Tukamuhabwa P. R. Rubaihayo 《Euphytica》2018,214(10):192
Groundnut leaf miner (GLM) (Aproaerema modicella) (Deventer) is one of the most destructive pests of soybean and groundnuts. In this study, the mode of inheritance, general combining ability (GCA), specific combining ability (SCA) effects, maternal effects of resistance to GLM and grain yield ha?1 were determined. Thirteen soybean parental genotypes and 81 F2 populations were evaluated for resistance to GLM in a 5?×?19 alpha lattice diallel design with two replications under natural GLM infestation in northern (Arua) and eastern (Iki-iki) Uganda during September to December 2016 rainy season. Highly significant differences were observed among parental genotypes and F2 populations for GLM incidence, severity, and grain yield. The estimates of GCA effects were significant for GLM incidence and severity scores but not for the number of larvae per plant and grain yield ha?1. SCA effects were non-significant for all the studied traits, suggesting that GCA effects were the major component responsible for soybean resistance to GLM with additive gene effects being more important for these traits. Baker’s ratio ranged from 0.44-1.0 for most of resistant traits except number of larvae per plant and grain yield ha?1. The results indicated also that cultivars Maksoy1 N, PI615437, PI578457A and NIIGC4.1-2 were good combiners against GLM incidence and severity. Parent PI615437 was a good combiner for grain yield and Maksoy1 N?×?PI615437 was a superior cross for grain yield and against GLM incidence. There were no maternal effects for the inheritance of resistance to GLM. The study provides a basis for understanding patterns of inheritance of soybean resistance to groundnut leaf miner for an efficient breeding program. 相似文献
12.
Since the mid-1990s, the cultivation of white lupin (Lupinus albus L.) has rapidly decreased in Germany and other countries in Central Europe because of the occurrence of Colletotrichum lupini, the causal agent of the fungal disease anthracnose, and the lack of varieties with a sufficient resistance towards this disease. To reestablish the relevance of cultivating white lupins, the development of new varieties with improved resistance is vital. In the study presented here, new breeding lines were evaluated from 2012 to 2014 on a total of five experimental sites in Germany. In each year, at least on one site a high disease pressure with good differentiation built up from natural seed infestations, so that evaluation and further selection for resistance was possible in all 3 years. The breeding lines showed improved performance of resistance towards C. lupini (anthracnose disease score 3.8 on average of all breeding lines and environments) compared to the reference varieties (anthracnose disease score 5.8). Improved resistance had a favorable effect on grain yield, particularly in environments with high disease pressure, and yield stability. Average grain yields were 2.6 t ha?1 for the breeding lines and 1.5 t ha?1 for the reference cultivars. Among the tested range of white lupins, the breeding material showed consistently higher grain yields on average of all environments compared to the rather low and variable yielding reference cultivars. The alkaloid content varied among environments and breeding lines. 相似文献
13.
Effects of Rate and Time of Potassium Application on Cotton Yield and Quality in Turkey 总被引:1,自引:0,他引:1
O. Gormus 《Journal of Agronomy and Crop Science》2002,188(6):382-388
Studies were conducted at Adana, in the Çukurova region of southern Turkey, to evaluate the effects of the rate and timing of application of soil‐applied potassium (K) on cotton (Gossypium hirsutum L.) in 1999 and 2000. Potassium rates of 0, 80, 160 and 240 kg K2O ha?1 were soil‐applied in single treatments (all at early boll development) or in split treatments (1/2 at first square and 1/2 at first white flower; 1/4 at first square, 1/4 at first white flower and 1/2 at early boll development). Data collected in the two years indicated that application of 160 kg K2O ha?1 produced significant differences in seed‐cotton yield, lint yield and boll weight compared with the untreated control. The best combination producing the greatest yield was application of 160 kg K2O ha?1 with all of the K soil‐applied at early boll development. Cotton yields did not respond to K fertilization above the rate of 160 kg K2O ha?1 under the production practices typically found in the region. For application of K at a rate of 240 kg K2O ha?1 there was a marked difference in fibre strength between years in this study, but micronaire and uniformity ratio were not different amongst K rates within each year. When the total amount of K was applied at early boll development, higher yields, boll weights and lint turnouts were obtained compared with split applications, but the single application did not have a large impact on fibre properties. 相似文献
14.
Matheus S. Barros Odilon P. Morais Júnior Patrícia G. S. Melo Orlando P. Morais Adriano P. Castro Flávio Breseghello 《Euphytica》2018,214(4):61
A plant breeding program is a long-term investment. Therefore, periodic assessment of the effectiveness of a breeding strategy is essential to maximize genetic gains per unit of time and resource invested. In this work, we assessed the effectiveness of the early-generation testing (EGT) approach used in the upland rice (Oryza sativa L.) breeding program at Embrapa (Brazilian Agricultural Research Corporation), Brazil, estimating the genetic progress achieved for three traits in two distinct phases, spanning 15 years. In the first phase (from 2003 to 2010), it was used the bulk method within F3 progenies with prior testing of F2 crosses, while in the second phase (from 2010 to 2017), it was used the bulk method within F2 progenies. The dataset comprised 70 yield trials, involving 1884 F3:5 progenies (phase I) and 925 F2:4 progenies (phase II) from an elite population, and 10 check cultivars, evaluated for grain yield (GY), plant height (PH) and days to flowering (DTF). For estimating the genetic gain, we adapted a generalized linear regression method to compute bi-segmented linear regression coefficients. Desirable genetic gains were achieved only for GY in both phases of the breeding program, with 78.75 kg ha?1 year?1 (2.68%) in the first phase, and 53.78 kg ha?1 year?1 (1.54%) in the second phase. These results show the effectiveness of EGT, especially via bulk method within F3 progenies with prior testing of F2 crosses, applied to upland rice breeding. Some refinements are discussed in the method to make it more cost-effective and more efficient in achieving genetic gains. 相似文献
15.
There is a need to develop the next generation of healthier crop products for an improved human and animal nutrition. Maize (Zea mays L.) cultivars with improved amino acid profiles are essential to diets focused on this crop. Breeders have added crop value with the development of quality protein maize (QPM). However, QPM cultivars have never been an option to farmer and ranchers in short-season environments. The objectives of this research were: (1) to adapt QPM genotypes to the northern U.S. through the North Dakota (ND) EarlyQPM Program, and (2) to develop new early generation SS and non-SS short-season QPM lines and populations for breeding purposes. Fifty-three inbred lines, including 47 QPM donor lines, five experimental North Dakota State University (NDSU) lines, and one ex-PVP line from industry, were selected to produce 94 early-QPM backcross populations. Considering earliness, protein content, and amino acid levels, 218 early generation lines were selected for producing testcrosses with industry testers. Experiments evaluating testcrosses were arranged in 10 × 10 and 12 × 12 partially balanced lattice designs across three ND locations in 2013 and 2014. A total of 48 lines were selected for further development, 17 representing the Stiff Stalk (SS) heterotic group and 31 representing the non-SS group. Selected lines showed, in hybrid combinations, not only above average grain yield, rate of dry down, and total protein content but also high levels of lysine, tryptophan, and methionine essential amino acids for feedstock nutrition. The results of this research show, for the first time, the successful adaptation of QPM genotypes to short-season environments. As a result, new ND EarlyQPM germplasms and lines have been developed for potential release. 相似文献
16.
Leaching of nitrogen from permanent grassland treated with cattle slurry The objective of this study was to determine the effect of cattle slurry and mineral nitrogen fertilization on nitrate contamination of the interflow soil water. Field experiments were conducted at grassland research station ‘Rengen’ in the Eifel area (475 m a.s.L., 7.5 °C mean temperature, 806 mm mean yearly precipitation). In the respective plots soil consisted of 40 cm loamy material over a compact, almost water impermeable soil layer. The 2 × 6 m sized individual plots were prepared 1985 in a way so that surrounding soil was removed down to the compact soil layer about 45 cm deep and the monolith beeing packed by polyethylene sheets, waterproofing the plots down to the water impermeable soil layer. At the open lower ends of the plots near the soil surface and at 45 cm depth respectively, metal sheets were inserted to drain the surface run-off and interflow water into gutters and from there into collecting tanks. Nitrogen fertilization included two cattle slurry treatments (240 kg and 480 kg ha?1 a?1 total nitrogen), combination of mineral nitrogen with cattle slurry (200 kg + 160 kg ha?1 a?1) and mineral nitrogen treatments without slurry (200 kg - ha?1 a?1). Control plots received neither mineral nor slurry nitrogen. The quantification of interflow water and its nitrogen concentration started in 1986. In this year relatively high nitrate concentrations up to 56 mg l?1 appeared in the interflow water. 1987 nitrogen concentrations dramatically decreased to mean values between 10 and 15 mg l?1 in all fertilization treatments. Similar levels of nitrate concentrations were observed in the following two years. Total amounts of nitrogen losses did nor exceed 5 kg ha?1 a?1 in any of the years from 1986 to 1988, nor were differences observed in nitrate concentration among the fertilization treatments. 相似文献
17.
Matheus Costa Dos Reis Fernando Lisboa Guedes Guilherme Barbosa Abreu João Cândido de Souza 《Euphytica》2013,191(2):217-222
The objective of the research was to evaluate recurrent selection strategies in maize (Zea mays L.) by determining the expected and realized responses to selection, as well as the alterations in heterosis, of hybrids from the cross between the original populations (C0) and the third cycle (C3). The genetic variances and covariances were obtained for intrapopulational (P11 and P22) and interpopulational (P12 and P21) half-sib progenies from populations 1 and 2 in cycles C0 and C3. One-hundred progenies of each type were evaluated [husked ear weight (g plant?1)] at two separate locations by conducting 10 × 10 triple lattice design experiments contiguous for each cycle. Four different recurrent selection strategies were investigated: reciprocal recurrent selection (RRS), interpopulation testcross half-sib selection (THS 1 and THS 2) and intrapopulational half-sib recurrent selection (HSS). THS 1, which employed population 1 (with the lowest frequency of favorable alleles) as tester, was most efficient in the simultaneous improvement of the hybrid and the two populations per se. RRS showed the highest efficiency in improving the interpopulational hybrid but not in the parental populations. In order to estimate heterosis and realized responses to RRS, representative samples of seed from intra and inter-populational half-sib progenies from C0 and C3 were employed in randomized block design experiments with 10 repetitions carried out at two separate locations. RRS increased heterosis in the interpopulational hybrid from 12.3 % (C0) to 24.9 % (C3), and the productivity gain [husked ear weight (t ha?1)] was 13.5 % over the three cycles. 相似文献
18.
S. E. El-Hendawy E. M. Hokam & U. Schmidhalter 《Journal of Agronomy and Crop Science》2008,194(3):180-192
Irrigation frequency is one of the most important factors in drip irrigation scheduling that affects the soil water regime, the water and fertilization use efficiency and the crop yield, although the same quantity of water is applied. Therefore, field experiments were conducted for 2 years in the summer season of 2005 and 2006 on sandy soils to investigate the effects of irrigation frequency and their interaction with nitrogen fertilization on water distribution, grain yield, yield components and water use efficiency (WUE) of two white grain maize hybrids (Zea mays L.). The experiment was conducted by using a randomized complete block split‐split plot design, with four irrigation frequencies (once every 2, 3, 4 and 5 days), two nitrogen levels (190 and 380 kg N ha?1), and two maize hybrids (three‐way cross 310 and single cross 10) as the main‐plot, split‐plot, and split‐split plot treatments respectively. The results indicate that drip irrigation frequency did affect soil water content and retained soil water, depending on soil depth. Grain yield with the application of 190 kg N ha?1 was not statistically different from that at 380 kg N ha?1 at the irrigation frequency once every 5 days. However, the application of 190 kg N ha?1 resulted in a significant yield reduction of 25 %, 18 % and 9 % in 2005 and 20 %, 13 % and 6 % in 2006 compared with 380 kg N ha?1 at the irrigation frequencies once every 2, 3 and 4 days respectively. The response function between yield components and irrigation frequency treatments was quadratic in both growing seasons except for 100‐grain weight, where the function was linear. WUE increased with increasing irrigation frequency and nitrogen levels, and reached the maximum values at once every 2 and 3 days and at 380 kg N ha?1. In order to improve the WUE and grain yield for drip‐irrigated maize in sandy soils, it is recommended that irrigation frequency should be once every 2 or 3 days at the investigated nitrogen levels of 380 kg N ha?1 regardless of maize varieties. However, further optimization with a reduced nitrogen application rate should be aimed at and will have to be investigated. 相似文献
19.
A relay cropping system of cereals, whereby winter wheat (Triticum aestivum L.) was undersown in two‐row spring barley (Hordeum distichum L.), was established in a field trial in central Sweden in 1999 and continued until 2000. The purpose of the study was to examine crop and weed responses to different plant densities of the undersown winter crop. Winter wheat was sown at four seed rates (187, 94, 47 and 0 kg ha?1) immediately after the sowing of barley. Barley was harvested in the first autumn after sowing and winter wheat in the second autumn. The grain yield of barley was not affected by the seed rate of wheat, and averaged 4580 kg ha?1. Winter wheat did not vernalize during the first growing season but remained at the vegetative stage. The grain yield of wheat was 1990 kg ha?1 for the lowest and 5610 kg ha?1 for the highest seed rate of wheat. Whilst the undersowing process itself stimulated weed emergence in this experiment, increasing the undersowing seed rate reduced the population of perennial weeds by 40–70 %. In the second growing season, the total biomass of weeds was 66 % higher at the highest seed rate compared with the lowest seed rate. 相似文献
20.
L. Pecetti M. Romani P. Annicchiarico & E. Piano 《Journal of Agronomy and Crop Science》2008,194(3):244-247
Efficient crop growth with low nitrogen (N) application is becoming a requirement to face the concern on excessive N emission to the environment and the increasing cost of fertilizers. This study compared six natural populations and three improved varieties of tall fescue (Festuca arundinacea Schreb.) for dry‐matter yield over 4 years under ordinary N fertilization (450 kg ha?1 in the 4 years) and very low N fertilization (only 40 kg ha?1 prior to sowing). Both endophyte‐infected (EI) and endophyte‐free (EF) forms of each accession were sown. On average, ordinary fertilization implied 30 % higher yield than very low fertilization and the EI germplasm outyielded the corresponding EF germplasm (+4.4 %). Mean yield of improved varieties was higher than that of natural populations under ordinary fertilization (P < 0.05), whereas the two germplasm groups did not differ under very low fertilization. Accession × N fertilization interaction was found among natural populations but not among varieties (P < 0.05). A few natural populations were top‐yielding under very low fertilization and may be exploited, possibly in combination with endophyte infection, to select tall fescue varieties with enhanced performance under limited N application. 相似文献