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1.
为确定昆明地区混播绿地草坪的适宜组合,本研究采用“NTEP九分制”法对昆明地区3组(组合1:70%高羊茅+20%草地早熟禾+10%多年生黑麦草;组合2:50%高羊茅+40%草地早熟禾+10%多年生黑麦草;组合3:30%高羊茅+60%草地早熟禾+10%多年生黑麦草)混播绿地草坪进行外观质量评价。结果表明组合3草坪得分最高(6.97),综合分析认为以草地早熟禾为建群种,高羊茅为伴生种,多年生黑麦草为先锋草种的混播搭配所建植的绿地草坪质量较好,适宜在昆明地区建坪使用。 相似文献
2.
T. S. Aamlid J. W. Knox H. Riley A. Kvalbein T. Pettersen 《Journal of Agronomy and Crop Science》2016,202(1):69-80
Determination of crop coefficients (Kc), the ratio between actual (ETa) and reference evapotranspiration (ET0), is necessary to schedule irrigation. Our objective was to determine Kc, turf quality and growth rate under daily irrigation to field capacity (FC = ?3 kPa tension) and drying. Minilysimeters installed in a green (mowing height 3–5 mm) and fairway (15 mm) were weighed during four periods of 4–10 days duration in 2009 and 2010. Crop coefficients on the second and subsequent days after irrigation were not significantly different among species and averaged 0.81 and 0.91 on green and fairway, respectively. On the first day after irrigation, the Kc varied from 1.67 to 2.85 and decreased in the order Agrostis capillaris > Festuca rubra ssp. litoralis > F. rubra ssp. commutata > A. stolonifera > A. canina on the green, and F. rubra ssp. litoralis > Lolium perenne > F.rubra ssp. rubra > Poa pratensis > F. rubra ssp. commutata on the fairway. Drying reduced the average daily height growth from 0.98 to 0.74 mm on the green and 1.97–1.72 mm on the fairway. Scores for turf quality were reduced but remained acceptable. Although the Kc during the first day after irrigation to FC may be overestimated due to latent soil heat and a possible oasis effect, we conclude that irrigation to FC should be avoided as it causes excessive water use. 相似文献
3.
Assessing evidence on the agronomic and environmental impacts of turfgrass irrigation management 
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下载免费PDF全文 C. Gómez‐Armayones A. Kvalbein T. S. Aamlid J. W. Knox 《Journal of Agronomy and Crop Science》2018,204(4):333-346
In recent years, rising competition for water coupled with new environmental regulations has exerted pressure on water allocations for turfgrass irrigation. In this article, we reviewed published scientific and industry evidence on the agronomic and environmental impacts of turfgrass irrigation using a robust systematic review methodology. Our focus was on the links between (i) irrigation management (amount and frequency), (ii) agronomic responses to irrigation (turf quality, growth rates and rooting) and (iii) environmental impacts (nitrogen leaching). Based on an initial screening of 653 studies and data extracted from 83 papers, our results show that in most cases, under moderate levels of deficit irrigation (50%–60% of actual evapotranspiration), turf quality can be maintained at an acceptable level but with lower water consumption compared to irrigating back to field capacity. Irrigation beyond field capacity was found to increase the risk of nutrient leaching. However, evidence also showed that the concentration and total loss of in leachate were influenced more by nitrogen (N) rates, soil characteristics, turfgrass species and turfgrass growth rates than by irrigation practices. Our analyses suggest that turfgrass irrigation should be scheduled to apply water at moderate levels of deficit irrigation, sufficient to maintain turfgrass quality but limited to promote a deep and extensive rooting system. The findings provide new insights and valuable evidence for both scientists and practitioners involved in turfgrass research and management. 相似文献
4.
M. Sincik B. N. Candogan C. Demirtas H. Büyükcangaz S. Yazgan & A. T. Göksoy 《Journal of Agronomy and Crop Science》2008,194(3):200-205
An experiment was conducted to investigate the influence of different levels of water deficit on yield and crop water requirement of soya beans in a sub‐humid environment (Southern Marmara region, Bursa, Turkey) in 2005 and 2006. One full‐irrigated treatment (T1), one non‐irrigated treatment (T5) and three different deficit irrigation (T2 = 25 % water deficit, T3 = 50 % water deficit, T4 = 75 % water deficit) treatments were applied to ‘Nova’ soya bean planted on a clay soil. Non‐irrigated and all deficit irrigation treatments significantly reduced biomass and seed yield and yield components. The full‐irrigated (T1) treatment had the highest yield (3760 kg ha?1), while the non‐irrigated (T5) treatment had the lowest yield (2069 kg ha?1), a 45.0 % seed yield reduction. T2, T3 and T4 deficit irrigation treatments produced 11.7–27.4 % less seed yield than the T1 treatment. Harvest index showed less and irregular variation among irrigation treatments. Both leaf area per plant and leaf area index were significantly reduced at all growth stages as amount of irrigation water was decreased. Evapotranspiration increased with increased amounts of irrigation water supplied. Our results indicate that higher amounts of irrigation resulted in higher seed yield, whereas water use efficiency and irrigation water use efficiency values decreased when irrigation amount increased. 相似文献
5.
《European Journal of Agronomy》2007,26(1):64-70
In search of new innovations for saving irrigation water, fruit yield response and N-fertiliser recovery of greenhouse grown spring-planted tomato (Lycopersicon esculentum Mill., cv. F1 Fantastic) were assessed as influenced by deficit irrigation, imposed using either conventional deficit irrigation (DI) or partial root drying (PRD). Three irrigation treatments were tested: (1) FULL, control treatment where the full amount of irrigation water, which was measured using Class-A pan evaporation data, was applied uniformly on the two halves of plant-root zone; (2) PRD, 50% deficit irrigation in which wetted and partially dry halves of the root-zone were interchanged every irrigation; (3) DI, conventional deficit irrigation maintained at 50% deficit, compared to FULL irrigation, with water applied on the both halves of the root-zone. During a growth period of 153 days, the highest fruit yield of 145.4 t ha−1 was measured under FULL irrigation treatment, which was followed by PRD and DI treatments with statistically lower (P ≤ 0.01) yields of 114.6 and 103.4 t ha−1, respectively. Irrigation water use efficiencies (IWUE) of both deficit treatments were significantly (P ≤ 0.01) higher (52.7% for PRD and 38.3% for DI) compared to FULL irrigation. Nitrogen-fertiliser recovery was over 70%, with no significant difference among the irrigation treatments. Both deficit treatments (DI and PRD) showed lower values of leaf water potential, photosynthetic rate and stomatal conductance compared to FULL irrigation. Before irrigation, xylem-sap abscisic acid (ABA) concentrations were 28% and 38% higher under water-stressed deficit treatments DI0 and PRD, respectively, compared to FULL irrigation, and the high ABA concentrations was maintained only under PRD effect, following irrigation. The results of this work suggest that PRD practices can be viable and advantageous compared to conventional techniques to minimise crop-yield reductions during deficit irrigation. 相似文献
6.
调亏灌溉与合理密植对旱区棉花生长发育及产量与品质的影响 总被引:6,自引:2,他引:4
为明确合理密植条件下调亏灌溉的节水增产效果,在新疆干旱区大田研究了灌溉量(饱和灌溉、正常灌溉、调亏灌溉)和种植密度(12万、18万、24万株·hm-2)对棉花生长发育和产量品质的影响。结果表明,灌溉量和种植密度对棉花生物产量、经济系数、经济产量有显著的互作效应,但对纤维品质没有影响。调亏灌溉显著抑制营养生长,但提高了收获指数;调亏灌溉下适当提高密度,显著提高了生物产量和单位面积铃数。调亏灌溉下高密度处理组合在用水量减少20%的情况下,棉花产量与正常灌溉下中、高密度以及饱和灌溉下低密度等高产组合的产量相当。调亏灌溉配合合理密植是旱区棉花节水增产的有效栽培途径之一。 相似文献
7.
Sijesh Natarajan Jaya Basnayake Prakash Lakshmanan Shu Fukai 《Journal of Agronomy and Crop Science》2020,206(6):665-678
Water deficit is an important abiotic stress factor limiting sugarcane production. Understanding the effect of water deficit on cane yield, yield components and genotype × environment (G × E) interaction can aid in selecting genotypes that are adapted to water deficit conditions. In this study, response of cane yield and yield components of 10 sugarcane genotypes grown under 3 irrigation treatments—fully irrigated, semi-irrigated and rainfed—was examined across 3 locations and 3 crop-years within each location. Cane yield reduced by 32% and 9% in the rainfed and semi-irrigated treatments, respectively, compared to the fully irrigated treatment. Genotypic variation was highly significant for cane yield and yield components in all three irrigation regimes. Cane yield in the rainfed treatment showed significant genetic correlation with stalk diameter (rg = 0.68), leaf number (rg = 0.64), node number (rg = 0.67) and stalk number (rg = 0.68). Genotype × irrigation variance was negligible compared to genotype, genotype × location and genotype × crop-year variances. Commercial genotypes had higher yield in most environments except in low-yield potential environments, which caused a significant genotype × location × irrigation effect, suggesting opportunities for improving sugarcane productivity in these environments. 相似文献
8.
Muhammad Farooq Leila Romdhane Mayaa K. R. A. Al Sulti Abdul Rehman Walid M. Al-Busaidi Dong-Jin Lee 《Journal of Agronomy and Crop Science》2020,206(2):176-186
Lentil (Lens culinaris Medik.) is an important grain legume crop, mostly grown in semi-arid environments and often faces intermittent drought spells during different growth stages, which severely hamper its yield. This study, comprising of three separate experiments, was conducted to evaluate the potential of seed priming with CaCl2 in improving drought tolerance in lentil. In the first experiment, lentil seeds were hydroprimed (water) or osmoprimed with 0.5 and 1% CaCl2; while non-primed seeds were taken as control. In the second and third experiments, lentil seeds were subjected to pre-optimized osmopriming (1% CaCl2) and hydropriming followed by surface drying or re-drying of primed seeds to original weight. The first two experiments were conducted in petri plates, while, in experiment 3, seeds were planted in plastic pots containing peat moss, maintained at 75% water holding capacity (WHC; well-watered) or 50% WHC (water deficit). Hydropriming and osmopriming improved seed germination, seedling growth, biomass production, chlorophyll intensity, sugar accumulation and reduced the oxidative stress in lentil under water deficit. However, osmopriming (1% CaCl2) was more effective than the hydropriming in improving the lentil growth, biomass production, Ca accumulation and sugar metabolism under both well-watered and water deficit conditions. Seed surface drying, after priming, was more beneficial in improving the lentil performance, under both well-watered and water deficit conditions, than re-drying to original weight. Osmopriming (1% CaCl2) increased the seeding dry weight (67%), SPAD value (140%), leaf Ca concentration (56%), α-amylase activity (55%), total soluble sugars (48%) and reduced malanodialdehyde content (35.9%) and total antioxidant activity (29.2%) than un-primed seeds under water deficit. In conclusion, osmopriming improved the lentil performance under optimal and water deficit conditions through early and synchronized emergence, better sugar and Ca accumulation which reduced the oxidative damage and resulted in better seedling growth and biomass production. 相似文献
9.
Green-turf character during Turf-forming Stage of a New Agrostis stolonifera Strain Yue Xuan No.1 总被引:1,自引:1,他引:1
粤选1号匍匐翦股颖新品系是从以匍匐翦股颖(Agrostis stolonifera L.)品种Penncross建坪的老果岭中分离,经系统选育而成的一个新品系。通过营养繁殖建植的粤选1号匍匐翦股颖新品系果岭草坪,与对照品种Penncross比较,新品系植株蔓延较慢,但分蘖性能极强,有利于快速成坪。成坪后,新品系果岭草坪密度、盖度、色泽、质地均优于Pencross,生物量明显高于Penncross,而春季的垂直生长速度显著低于Penncross。6月份原品种草坪明显发黄,生长停滞。新品系适宜于高尔夫果岭和发球 相似文献
10.
Evaluation of Cold Tolerance in NERICAs Compared with Japanese Standard Rice Varieties at the Reproductive Stage 下载免费PDF全文
下载免费PDF全文 C. M. Wainaina Y. Inukai P. W. Masinde E. M. Ateka H. Murage M. Kano‐Nakata Y. Nakajima T. Terashima Y. Mizukami M. Nakamura T. Nonoyama N. Saka S. Asanuma A. Yamauchi H. Kitano J. Kimani D. Makihara 《Journal of Agronomy and Crop Science》2015,201(6):461-472
New Rice for Africa (NERICA) is a general name for interspecific rice varieties derived from a cross between the high‐yielding Asian rice (Oryza sativa L.) between locally adapted African rice (Oryza glaberrima Steud.). Eight NERICAs were evaluated for cold tolerance (CT) at the reproductive stage and compared with their O. sativa parents and three Japanese standard rice varieties over 3 years. Cold tolerance was evaluated based on the filled grain ratio (FGR) after cold water irrigation. The FGR was greatly reduced by cold water irrigation. NERICA 1, 2 and 7 had higher FGR (51.9–57.9 %), while NERICA 6, 15 and 16 had lower FGR (6.2–14.5 %). NERICA 1, 2 and 7 were less affected by cold stress, with a 31 % mean reduction in FGR, while NERICA 6, 15 and 16 were greatly affected, with their FGRs being reduced by more than 80 %. NERICA 3 and 4 were moderately affected by cold stress, with about 45 % reduction rate in FGR. FGR significantly influenced the grain weights of the varieties with strong positive correlations (r = 0.83–0.91; P < 0.001), and thus, similar trends in grain weights were observed. Grain weights were reduced by 61.7–96.4 % under cold stress. NERICA 1, 2 and 7 showed significantly better performance than NERICA 3 and 4, while NERICA 6, 15 and 16 performed poorly under cold water irrigation. The Japanese varieties Koshihikari (very tolerant) and Ozora (moderately tolerant) were more affected by cold water irrigation than NERICA 1, 2 and 7. On the basis of the mean reduction rate (%) in FGR under cold stress, the varieties were classified as follows: NERICA 1, 2 and 7 as tolerant; NERICA 3 and 4 as moderately tolerant; and NERICA 6, 15 and 16 as susceptible to cold stress. However, NERICA 7 grain yields were lower under cold stress due to both greatly reduced number of panicles per plant and number of spikelets per panicle. Therefore, NERICA 1 and 2 are suitable candidates for production in the highland regions of East Africa and should be promoted for production. 相似文献
11.
水分亏缺下化肥减量配施有机肥对棉花光合特性与产量的影响 总被引:1,自引:0,他引:1
Fixed position experiments were conducted in 2017 and 2018, and split plot arrangement with the main treatment for full irrigation (W1) with irrigation amount was 4800 cubic meters per hectare and deficit irrigation (W2) was 2400 cubic meters per hectare, and the secondary treatment including treatments without fertilization (CK), single application of chemical fertilizer (CF), 75% chemical fertilizer with 25% organic fertilizer (M1), 50% chemical fertilizer with 50% organic fertilizer (M2), and 25% chemical fertilizer with 75% organic fertilizer (M3). The effects of chemical fertilizer reduction and organic fertilizer application on photosynthetic characteristics and yield of cotton were studied to provide theoretical basis for rational utilization of organic fertilizer and reduction of chemical fertilizer input under water deficit. Under deficit irrigation, leaf area index (LAI), net photosynthetic rate (Pn), stomatal conductance (Gs), above-ground dry matter accumulation and seed yield of cotton were all lower than that under full irrigation, while irrigation water productivity (IWP) and intercellular CO2 concentration (Ci) were higher. The chemical fertilizer reduction combined with application of organic fertilizer could effectively improve the LAI after the full squaring stage, improve Pn and Gs of cotton in all stage, promote the accumulation of vegetative and reproductive organs dry matter, improve its transfer to the reproductive organs, improve the IWP and seed yield, and also increase the moisture content of soil surface in the period of full boll stage and boll opening stage. The effects among different organic fertilizer treatments on LAI, Pn and seed yield were all presented as M1 > M2 > M3, and under the treatment of M1, the average seed cotton yield of two years increased compared with CF and CK by 6.9% and 62.1% respectively. Whereas, the effects under deficit irrigation were presented as M2 > M1 > M3, and the two years’ average seed yield increased by 19.9% and 79.3% respectively compared with CF and CK under M2. Chemical fertilizer reduction and organic fertilizer application were beneficial to increase the yield of seed cotton under water deficit, and alleviate the influence of water deficit on cotton growth and development, M2 (50% fertilizer +50% organic fertilizer) was the best treatment. 相似文献
12.
Important savings in the levels of irrigation without an associated penalty in yield have been reported for olive under deficit irrigation strategies. Full irrigation (C), continuous deficit irrigation (CDI) and regulated deficit irrigation (RDI), were compared from 2004 to 2006 in Cordoba, southern Spain, in terms of seasonal evapotranspiration (ET), growth and yield in mature olive trees (Olea europaea L. cv. ‘Arbequina’). In deficit treatments, the total amount of irrigation was around 25% of that of the Control while ET was 65–70% of that of C. Deficit treatments strongly reduced vegetative growth, but only slightly reduced the final fruit volume. Water stress caused a higher reduction in fresh fruit yield than oil yield due to a higher oil concentration in deficit irrigated trees, without differences between CDI and RDI. Therefore, both irrigation strategies may be used in olive to save a significant amount of irrigation with moderate reductions (about 15%) in oil yield. The amount of oil produced per unit intercepted PAR was almost the same for all the treatments, which suggests that olive oil yield may be calculated from intercepted radiation even under moderate water stress. 相似文献
13.
14.
Texas and Argentine bluegrass are both dioecious Poa species with distinct morphological characteristics. Argentine bluegrass has a bunch-type growth habit, fine upright leaves and does not produce rhizomes. Texas bluegrass spreads by rhizomes and has wider, longer leaves. In an effort to produce novel germplasm with forage or turf potential, experiments were conducted to determine whether hybrid seed could be produced. Crosses were made using pollen from an Argentine male to fertilize two Texas female plants. Parents were induced to flower in the greenhouse by extending the photoperiod to 18 h with 400 W high-pressure sodium lamps from late December to April. The two crosses produced >200 seeds each. Hybrid seedlings segregated for traits from both parents. A sorghum-derived SSR marker confirmed the hybrid nature of a group of seedlings. Seeds harvested from F1 plants using Texas or Texas × Argentine pollen lost the undesirable cottony characteristic of Texas bluegrass. Evaluations for forage and turf potential of hybrid and later generation seed are planned. 相似文献
15.
Effects of water and nitrogen management on fibrous root distribution and turnover in sugar beet 总被引:2,自引:0,他引:2
Two field trials were carried out in two years in heavy soils of NE Italy, with the aim of studying the effects of water and nitrogen management on fibrous root distribution and dynamics in sugar beet (cv. Dorotea). In conditions of moderate water deficit (year 2002, Conselice, Ravenna, clay soil), two water regimes (irrigation to 100% of potential evapotranspiration, and rainfed) were factorially combined with three rates of nitrogen application (180, 90, 0 kg ha−1). Irrigation increased volumetric root length density (RLDv) without N application and at the medium N rate – a common amount in beet cultivation – but reduced it at the maximum N dose. The medium N rate increased RLDv and shifted root distribution towards shallow layers, regardless of water regime.In the conditions of marked drought of 2003 (Legnaro, Padova, silty-loam soil), at a single rate of N supply (90 kg ha−1) irrigation increased total production (length) of fibrous roots throughout the soil profile (1.8 m), except in the 0.5–1 m interval, and improved the length of standing living roots during the season. Although the maximum root depth at the end of the season was similar in the two water regimes (about 1.9 m), irrigated roots reached the saturated soil layers 10 days earlier than in rainfed plants. The main result was reduced root turnover in deep soil layers (>1 m) and an increase at the surface in the rainfed treatments in conditions of drought, a probable mechanism of adaptation to a more marked gradient of soil moisture compared with irrigation. 相似文献
16.
为了研究水分胁迫对露天膜下滴灌辣椒生长、产量形成和水分利用效率的影响,在辣椒苗期和开花坐果期均分别施加轻度水分胁迫(65%~75%田间持水量)、中度水分胁迫(55%~65%田间持水量)和重度水分胁迫(45%~55%田间持水量),全生育期充分供水处理(75%~85%田间持水量)为对照,分别测定各水分处理辣椒不同生育期末生长指标(株高、茎粗、叶面积指数和单株干物质积累量)以及青果总产量和水分利用效率,并用三次曲线模拟了辣椒各生长指标在全生育期内的动态变化过程。结果表明:三次曲线能够较好地反映不同水分处理下辣椒各生长指标随时间的动态变化。苗期和开花坐果期一定程度水分胁迫能导致辣椒在水分胁迫时段株高、茎粗和叶面积指数显著(P0.05)小于CK组,后期复水后,由于辣椒产生补偿性生长,苗期轻度和中度水分胁迫处理以及开花坐果期轻度水分胁迫处理辣椒,各生长指标增长速率在一定时间内超过CK组,最终辣椒产量和单株结果数均与CK组之间无显著差异(P0.05),且辣椒平均单果重分别比CK组显著高18.48%,22.49%,14.14%。苗期和开花坐果期水分胁迫,均能提高辣椒根冠比和果实干物质分配指数并减少辣椒全生育期灌水量和耗水量,特别是苗期中度水分胁迫处理,在不显著降低产量的情况下,灌水量和耗水量分别比CK组显著低12.36%和11.51%,且水分利用效率、灌溉水利用效率均最高,分别比CK显著高8.61%和9.66%,因此,在苗期施加中度水分胁迫,后期充分灌水是实现绿洲辣椒节水、高产和高效栽培的一种较优灌溉方式。 相似文献
17.
Efficient N management is essential to optimize yields and reduce degradation of the environment, but requires knowledge of deficit irrigation effects on crop yields and crop N outputs. This study assessed the N content and N-use efficiency of cotton over the 2008 and 2009 growing seasons in a single field site of the Thessaly Plain (central Greece). The experiment consisted of nine treatments with three fertilizer rates (60, 110 and 160 kg N ha−1) split into three irrigation levels (approx. 1.0, 0.7 and 0.4 of the amount applied by the producer). Reduced water supply induced a shift in the distribution of N within the plant with seeds becoming an N sink under conditions of water stress. Total crop N increased linearly with irrigation level and reached a maximum average of 261 and 192 kg N ha−1 in 2008 and 2009, respectively. Fertilizer application did not trigger a crop N or yield response and indicated that N inputs were in excess of crop needs. Variation in weather patterns appeared to explain annual differences of nitrate-N in the top soil and N uptake by the crop.The index of lint production efficiency (iNUE) detected crop responses caused by irrigation and annual effects, but failed to account for excessive N inputs due to mineral fertilizer applications. A maximum average iNUE of 9.6 was obtained under deficit irrigation, whereas an iNUE of 8.1 was obtained under 40 cm irrigation when crop N uptake was not excessive (192 kg ha−1 in 2009). In contrast, NUE, as an estimator of N recovery efficiency, identified excessive fertilizer inputs as N losses to the environment and indicated that 60 kg N ha−1 was a rate of high N removal efficiency and long-term N balance. However, NUE failed to account for crop N responses to irrigation and weather/management patterns. In this case study, neither index was able to detect all the factors influencing the N mass balance and both were required in order to provide a comprehensive evaluation of the environmental performance of our cropping system. 相似文献
18.
水分亏缺下化肥减量配施有机肥对棉花光合特性与产量的影响 总被引:1,自引:0,他引:1
于2017年和2018年进行田间定位试验,采用裂区试验设计,主区为充分灌溉W1(灌水量4800 m3 hm-2)和亏缺灌溉W2(灌水量2400 m3 hm-2),副区为不施肥(CK)、单施化肥(CF)、75%化肥+25%有机肥(M1)、50%化肥+50%有机肥(M2)、25%化肥+75%有机肥(M3)5个处理,研究了化肥减量配施有机肥对棉花光合特性及产量的影响,以期为水分亏缺下合理利用有机肥、减少化肥投入提供理论依据。结果表明,亏缺灌溉下棉花叶面积指数(leaf area index,LAI)、净光合速率(Pn)、气孔导度(Gs)、地上部干物质积累量和籽棉产量均低于充分灌溉,但灌溉水生产力(irrigation water productivity,IWP)和胞间CO2浓度(Ci)高于充分灌溉。化肥减量配施有机肥较单施化肥能显著提高盛蕾期后棉花LAI,提高棉花各生育期Pn和Gs,增加棉花营养器官和生殖器官干物质积累量,并促进干物质向生殖器官转运,提高籽棉产量和IWP,能在盛铃期和吐絮期提高土壤耕层含水量。充分灌溉下,各有机肥配施处理间棉花LAI、Pn和籽棉产量均表现为M1>M2>M3,其中M1籽棉产量2年平均分别较CF、CK提高了6.9%和62.1%;亏缺灌溉下,各有机肥配施处理间棉花LAI、Pn和籽棉产量表现为M2>M1>M3,其中M2籽棉产量2年平均分别较CF、CK提高了19.9%和79.3%。化肥减量配施有机肥在水分亏缺下有利于籽棉增产,缓解水分亏缺对棉花生长发育的影响,其中M2(50%化肥+50%有机肥)为最佳施肥处理。 相似文献
19.
为了探明不同调亏程度对海岛棉产量及品质的影响,通过田间小区试验,以正常灌水量为对照,设置轻度调亏(正常灌水量的75%)、中度调亏(正常灌水量的50%)和重度调亏(正常灌水量的25%),研究调亏灌溉对海岛棉不同部位优质成铃特性的调节效应。结果表明:轻度调亏对棉花产量品质无显著影响,而中度和重度调亏使皮棉产量分别下降了10.8%和25.4%,主要是单株铃数和单铃重显著下降。轻度和中度调亏对衣分影响较小,但重度调亏使衣分显著下降。轻度和重度调亏使纤维长度略有下降,中度调亏则纤维长度增加。纤维比强度和马克隆值随调亏程度增加呈增大趋势,但差异不显著。从不同结铃部位分析,轻度调亏使棉花中部铃重、纤维长度、比强度增大,上部铃重、纤维长度显著降低。而中度和重度调亏均使中部铃重、衣分显著下降,中度调亏使中部棉铃纤维比强度增加,而重度调亏可显著提高下部棉铃纤维比强度。轻度调亏使中部、中度调亏使下部、重度调亏使上部棉铃纤维马克隆值显著增大。 相似文献
20.
H. T. Kunelius G. H. Dürr K. B. McRae S. A. E. Fillmore 《Journal of Agronomy and Crop Science》2006,192(3):159-167
This study sought to identify grass/legume mixtures that increase the yield and persistence of forage stands with improved nutritive quality in cold‐winter regions, compared with the standard mixture of timothy (Phleum pratense L.)/red clover (Trifolium pratense L.)/alsike clover (Trifolium hybridum L.). Timothy was mixed with either perennial ryegrass (Lolium perenne L.), meadow fescue (Festuca pratensis L.) or Kentucky bluegrass (Poa pratensis L.). The legumes in mixtures were red clover, alfalfa (Medicago sativa L.) or white clover (Trifolium repens L.). Averaged over three production years, the majority of mixtures had greater dry matter (DM) yields than the standard (8.35 t ha?1). Timothy, grown alone and in three mixtures, outyielded the standard by 19–30 %. Yield reductions in mixtures over the 3‐year period were greatest with red clover, and least with bluegrass. Mixtures with alfalfa were highest in nitrogen (28.4 g kg?1), while grasses grown alone (24.6 g kg?1) and the standard mixture (25.1 g kg?1) were the lowest in N. Mixtures with red clover or alfalfa had the least neutral detergent fibre (NDF), averaging 418 and 429 g kg?1 respectively. Mixtures including white clover were initially low in NDF at 347 g kg?1 in year 1 but increased to 550 g kg?1 in year 3 as white clover composition declined in the sward. 相似文献