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1.
DING Wenli 《干旱区科学》2021,13(7):730-743
Switchgrass is an introduced C4 grass in the semi-arid Loess Plateau of China, but there is a lack of information to assess its ecological invasive risk. In this study, Old World bluestems (native C4 grass) and switchgrass were sowed at five mixture ratios (8:0, 6:2, 4:4, 2:6 and 0:8) under two soil water levels (80% field capacity (FC) and 40% FC) and two nitrogen (N) treatments (0 and 100 mg N/kg dry soil, termed N0-unfertilized and N1-fertilized treatments, respectively) in a pot experiment in 2012. Biomass, root morphological traits and relative competitive abilities of these two species were analyzed. Results showed that biomass of both species was significantly greater under 80% FC or N fertilization, and switchgrass had a relatively larger root:shoot ratio (RSR). Total root length (TRL) and root surface area (RSA) of switchgrass were significantly higher under 80% FC irrespective of N treatment, while those of Old World bluestems were only significantly higher under N fertilization. N had no significant effect on TRL and RSA of switchgrass, while RSA of Old World bluestems significantly increased under 80% FC and N fertilization. Under 40% FC and N0-unfertilized treatment, the aggressivity of Old World bluestems was larger than zero at 2:6 and 4:4 mixture ratios of two species, whereas it was close to zero at 6:2 mixture ratio. Root competitive ability of switchgrass significantly increased under 80% FC or N fertilization. The aggressivity of Old World bluestems was negative at 6:2 mixture ratio under 80% FC and N fertilization, while it was positive at 2:6 mixture ratio. Switchgrass may become more aggressive when N deposition or rainfall increases, while a proper mixture ratio with appropriate water and N management could help with grassland management in the semi-arid Loess Plateau. 相似文献
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2017年引进早熟杂柑品种‘爱媛28’香橙砧和枳砧苗分别在大棚设施和露天进行试种,栽培4年调查比较两个砧木组合的生长表现、丰产性与果实品质,结果表明:‘爱媛28’香橙砧树表现生长势强,冠幅、树高、茎粗、结果枝、秋梢等生长量指标显著大于枳砧树,3a树初产1436 kg/667㎡,4a树2523kg/667㎡,显著高于枳砧4a树初产1809kg/667㎡;大棚种植香橙砧4a树果实10月下旬TSS11-12%,12月中旬TSS可达15%,与枳砧相当,可滴定酸比枳砧略高,两者固酸比均达18以上,口感风味极佳,两者单果重、果形指数、果皮厚度、可食率无显著性差异;未密封大棚4a树体经受2020年寒冬极端低温考验无明显冻害,抗旱抗寒能力中等,易感黑点病和流胶病,大棚种植能很好预防黑点病。综合评价爱媛28枳砧和香橙砧均适合在南平市种植,香橙砧比枳砧早期丰产性稳产性好,收益更高,香橙砧‘爱媛28’设施种植较枳砧更具优势。 相似文献
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通过对2015年种植于南京地区的4个北高丛优良蓝莓品种‘钱德勒’、‘甜心’、‘布里吉塔’和‘埃利奥特’的生长量、物候期以及果实外观和品质特征的调查发现,结果发现,布里吉塔和埃利奥特的适应性较强,生长量大,坐果率高,在较好的管理条件下,可以取得较高的产量;钱德勒和甜心的适应性中等,坐果率及产量中等或偏低。甜心属于极早熟品种,5月下旬成熟,钱德勒和布里吉塔属于中熟品种,6月上旬成熟,埃利奥特属于晚熟品种,6月中旬成熟。钱德勒和布里吉塔属于大果,甜心属于中果,3个品种的鲜食品质极佳,感官评分在南京地区种植的近60个品种中名列前茅。埃利奥特属于中果,鲜食品质中等。综合来看,布里吉塔在南京地区适应性好,果实品质佳,具有较大的发展潜力,钱德勒和甜心的果实鲜食品质极佳,但适应性中等,可少量种植,埃利奥特的适应性较好,果实品质中等,可酌情推广。 相似文献
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基于河南省2011—2017年长期定位耕作试验数据对RZWQM2模型进行了率定和验证,利用RZWQM2模型分析了不同降水年型免耕对0~100cm土层贮水量、冬小麦地上部氮素积累量和根部氮素积累量、冬小麦产量及氮素利用率的影响。模拟结果表明,不同降水年型冬小麦地上部氮素积累量和根部氮素积累量、冬小麦产量由大到小均表现为丰水年、平水年、枯水年。与传统耕作相比,免耕使枯水年、平水年和丰水年冬小麦不同生育期0~100cm土层平均贮水量分别提高11.3%、12.9%和16.9%。与传统耕作相比,免耕使枯水年冬小麦地上部氮素积累量和平水年抽雄期-收获期根部氮素积累量分别提高2.5%和3.1%,分别提高枯水年、平水年和丰水年氮素利用率26.7%、8.7%和6.0%,免耕较传统耕作氮肥利用效率在枯水年提高11.7%,而在丰水年降低1.7%。 相似文献
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在地球化学元素循环中,氮素是最重要、最活跃的营养元素之一。农田生态系统中的氮素很大程度上决定农作物的产量和品质。然而,在全球气候变化背景下,随着大气CO2浓度和温度升高,作物-土壤氮循环的变化可能显著影响农田生态系统中的作物生产。因此,研究作物-土壤氮循环对大气CO2浓度和温度升高的响应,能够为科学合理地预测未来气候条件下,农田生态系统中作物的氮素需求,以及保障农作物产量的稳定供应提供理论依据,对于全面认识全球气候变化背景下的农田生态系统氮素循环过程及土壤可持续利用具有重要意义。本文综述了大气CO2和温度升高对作物氮素吸收和分配,以及与氮有效性密切相关的土壤氮转化的影响,并系统总结了二者对作物-土壤氮循环过程产生的交互作用。总结以往研究发现,在大气CO2浓度升高条件下,作物的蒸腾作用减弱,但光合作用增强,生物量加大,根系分支和根表面积增加,豆科作物的根瘤固氮能力提高,因此整体上促进作物对氮的吸收,并且增加作物向籽粒中分配氮的比例,但作物的平均氮浓度降低。此外,高CO2浓度提高了土壤酶活性,增强了土壤有机氮矿化作用、硝化及反硝化作用,加速了土壤氮转化。升温和CO2浓度升高对作物-土壤氮循环产生正向或负向的交互作用,主要表现在:高温和高CO2浓度对作物的生物量、光合作用、地下部氮分配、根系分支以及根表面积具有协同促进作用,升高温度减轻了高CO2浓度对作物蒸腾作用和作物氮浓度的抑制作用。然而,升温抑制了高CO2浓度对作物向籽粒中氮分配、氮吸收以及产量的促进作用;升温虽然能进一步增强高CO2浓度对土壤酶活性和有机氮矿化的促进作用,但是对于土壤硝化和反硝化作用,二者的交互作用以及相关的分子机制尚不明确。大气CO2升高和温度升高对土壤微生物,以及微生物与作物之间的耦合关系的研究比较薄弱,特别是由微生物主导的氮循环过程及其对全球气候变化的反馈机制是未来研究的重点。本文提出利用16S rRNA、DGGE、T-RFLP、qPCR、RT-PCR技术、蛋白组学以及稳定性同位素探针原位研究技术,可以将复杂环境中微生物物种组成及其生理功能进行耦合分析,揭示大气CO2浓度与温度对作物-土壤氮循环过程的交互作用机理,增强对气候变化下农田生态系统氮素循环响应的预测能力,为农田生态系统有效地适应气候变化提供科学的理论依据。 相似文献
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Yield performance and optimal nitrogen and phosphorus application rates in wheat and faba bean intercropping 下载免费PDF全文
Yield performance in cereal and legume intercropping is related to nutrient management, however, the yield response of companion crops to nitrogen (N) input is inconclusive and only limited efforts have focused on rationed phosphorous (P) fertilization. In this study, two multi-year field experiments were implemented from 2014–2019 under identical conditions. Two factors in a randomized complete block design were adopted in both experiments. In field experiment 1, the two factors included three planting patterns (mono-cropped wheat (MW), mono-cropped faba bean (MF), and wheat and faba bean intercropping (W//F)) and four N application rates (N0, 0 kg N ha–1; N1, 90 and 45 kg N ha–1 for wheat and faba beans, respectively; N2, 180 and 90 kg N ha–1 for wheat and faba beans, respectively; and N3, 270 and 135 kg N ha–1 for wheat and faba beans, respectively). In field experiment 2, the two factors included three P application rates (P0, 0 kg P2O5 ha–1; P1, 45 kg P2O5 ha–1; and P2, 90 kg P2O5 ha–1) and the same three planting patterns (MW, MF, and W//F). The yield performances of inter- and mono-cropped wheat and faba beans under different N and P application rates were analyzed and the optimal N and P rates for intercropped wheat (IW) and MW were estimated. The results revealed that intercropping favored wheat yield and was adverse to faba bean yield. Wheat yield increased by 18–26%, but faba bean yield decreased by 5–21% in W//F compared to MW and MF, respectively. The stimulated IW yield drove the yield advantage in W//F with an average land equivalent ratio (LER) of 1.12. N and P fertilization benefited IW yield, but reduced intercropped faba bean (IF) yield. Nevertheless, the partial LER of wheat (pLERwheat) decreased with increasing N application rates, and the partial LER of faba bean (pLERfaba bean) decreased with increasing P application rates. Thus, LER decreased as N input increased and tended to decline as P rates increased. IW maintained a similar yield as MW, even under reduced 40–50% N fertilizer and 30–40% P fertilizer conditions. The estimated optimum N application rates for IW and MW were 150 and 168 kg ha–1, respectively, and 63 and 62 kg ha–1 for P2O5, respectively. In conclusion, W//F exhibited yield advantages due to stimulated IW yield, but the intercropping yield benefit decreased as N and P inputs increased. Thus, it was concluded that modulated N and P rates could maximize the economic and ecological functions of intercropping. Based on the results, rates of 150 kg Nha–1 and 60 kg P2O5 ha–1 are recommended for IW production in southwestern China and places with similar conditions. 相似文献