Effects of hypobaria, hyperoxia, and nitrogen form on the growth and nutritional quality of lettuce

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Linwei Jia , Yongkang Tang , Ke Tian , Weidang Ai , Wenjin Shang , Hao Wu
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引用次数: 0

Abstract

The objectives of this research were to investigate the impact of hypobaria, hyperoxia, and nitrogen form on the growth and nutritional quality of plants. Pre-culture 20-day-old lettuce (Lactuca sativa L. var. Rome) seedlings grew for 25 days under three levels of total atmospheric pressure (101, 54, and 30 kPa), two levels of oxygen partial pressure (21 and 28 kPa), and two forms of nitrogen (NO3N and NH4N). The ratios of NO3N to NH4N included 3: 1, 4: 0, 2: 2, and 0: 4. The nitrogen quantity included two levels, i.e. N1, 0.1 g N kg−1 dry matrix and N2, 0.2 g N kg−1 dry matrix. The growth status of lettuce plants in different treatments differentiated markedly. Regardless of the nitrogen factor, the growth status of lettuce plants treated with total atmospheric pressure/oxygen partial pressure at 54/21 was equivalent to the treatment of 101/21. Under the hypobaric condition (54 kPa), compared with 21 kPa oxygen partial pressure, hyperoxia (28 kPa) significantly inhibited the growth of lettuce plants and the biomass (fresh weight) decreased by 60.9%-69.9% compared with that under 101/21 treatment. At the N1 level, the sequence of the biomass of lettuce plants supplied with different ratios of NO3N to NH4N was 3: 1 > 4: 0 > 2: 2 > 0: 4, and there were higher concentrations of chlorophyll and carotenoid of lettuce plants supplied with the higher ratio of NO3 to NH4. At the N2 level, the effects of different ratios of NO3N to NH4N on lettuce plants were similar to those at the N1 level. The high nitrogen (N2) promoted the growth of lettuce plants such as 54/21/N2 treatments. Both form and nitrogen level did not affect the stress resistance of lettuce plants. Hypobaria (54 kPa) increased the contents of N, P, and K and hyperoxia (28 kPa) decreased the content of organic carbon in lettuce plants. The high nitrogen (N2) improved the content of total N and the N uptake. The ratios of NO3N to NH4N were 4: 0 and 3: 1, lettuce could absorb and utilize N effectively. This study demonstrated that hyperoxia (28 kPa) inhibited the growth of lettuce plants under the hypobaric condition (54 kPa), and high level of nitrogen (0.2 g N kg−1 dry matrix) and NO3N: NH4N at 3: 1 markedly enhanced the growth, the contents of mineral elements and the nutritional quality of lettuce plants.

低盐、高氧和氮形态对莴苣生长和营养质量的影响
本研究的目的是调查低气压、高氧和氮形态对植物生长和营养质量的影响。在三种总气压(101、54 和 30 千帕)、两种氧分压(21 和 28 千帕)和两种氮(NO3-N 和 NH4-N)条件下,培养前 20 天大的莴苣(Lactuca sativa L. var.)氮量包括两个水平,即 N1(0.1 克 N 千克-1 干基质)和 N2(0.2 克 N 千克-1 干基质)。不同处理下莴苣植株的生长状况差异明显。无论氮因素如何,在总大气压/氧分压为 54/21 的处理条件下,莴苣植株的生长状况与 101/21 的处理条件相当。在低压条件(54 kPa)下,与氧分压 21 kPa 相比,高氧(28 kPa)明显抑制了莴苣植株的生长,生物量(鲜重)比 101/21 处理时减少了 60.9%-69.9% 。在N1水平,不同NO3-N与NH4-N比例的莴苣植株生物量顺序为3:1 > 4:0 > 2:2 > 0:4,NO3与NH4比例越高的莴苣植株叶绿素和类胡萝卜素浓度越高。在 N2 水平,NO3-N 与 NH4-N 的不同比例对莴苣植株的影响与 N1 水平相似。高氮(N2)促进了莴苣植株的生长,如 54/21/N2 处理。两种形式和氮水平都不影响莴苣植株的抗逆性。低氧(54 kPa)增加了莴苣植株中氮、磷和钾的含量,而高氧(28 kPa)则降低了莴苣植株中有机碳的含量。高氮(N2)提高了总氮含量和氮吸收率。NO3-N 与 NH4-N 的比例分别为 4:0 和 3:1,莴苣能有效地吸收和利用氮。该研究表明,在低压条件(54 kPa)下,高氧(28 kPa)抑制了莴苣植株的生长,而高氮(0.2 g N kg-1 干基质)和 NO3-N 与 NH4-N 的比例为 3:1 则显著提高了莴苣植株的生长、矿物质元素含量和营养质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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