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Utilization of Actinomycetes to increase phosphate availability at different soil moisture conditions in Andisols Namanteran, North Sumatera 利用放线菌提高北苏门答腊纳曼特兰安地斯不同土壤湿度条件下的磷酸盐利用率
Pub Date : 2023-12-22 DOI: 10.22146/ipas.77785
M. R. Alfikri, T. Sabrina, A. Sahar
The high phosphate retention in Andisols causes the availability of P to be low, can not be absorbed by plants. Actinomycetes are capable of solubilizing bound phosphates. This research aimed to identify Actinomycetes in Andisols Namanteran, assess their ability to increase phosphate availability, and understand how they work to increase phosphate availability in this soil. The research design used a factorial randomized block design with 2 factors; factor 1 was Actinomycetes isolate, consisting of A₀ = No Inoculant, A₁ = Inoculant A₁₃₂ (vegetable crops; 32 × 10⁸ CFU mL⁻¹), A₂ = A₄₆₈ (forest plants; 41 × 10⁸ CFU mL⁻¹), A₃ = A₄₅₈ (forest plant; 58 × 10⁸ CFUmL⁻¹), A₄ = A₄₇₁ (coffee plant; 35 × 10⁸ CFU mL⁻¹), A₅ = A₄₅₉ (forest plant; 63 × 10⁸ CFU mL⁻¹), A₆ = A₃₂₁ (hibiscus plant; 37 × 10⁸ CFU mL⁻¹), and A₇ = A₃₅₆ (vegetable plant; 33 × 10⁸ CFU mL⁻¹), and factor 2 was soil water content, consisting of K₁ = 50%, K₂ = 75% and K₃ = 100% of field capacity. The results showed that the availability of P in Andisols increased due to the application of Actinomycetes from 42.46 ppm to 159.20−266.60 ppm. The population of Actinomycetes in Actinomycetes treatment ranged from 27.33−31.58 × 10⁸ CFU mL⁻¹), with a soil pH of 4.41. Water content of 100% was the best in increasing soil pH and Actinomycetes population, but not having significant effects on the available P of the soil. The results of molecular identification of Actinomycetes that have the best potential in dissolving P include A₃>A₅>A₂>A₄>A₁.
安地斯土壤中的高磷酸盐潴留导致磷的可用性很低,植物无法吸收。放线菌能够溶解结合磷酸盐。本研究旨在确定安地斯-纳曼特兰土壤中的放线菌,评估它们提高磷酸盐可用性的能力,并了解它们是如何在这种土壤中提高磷酸盐可用性的。研究设计采用了 2 个因子的因子随机区组设计;因子 1 是放线菌分离,包括 A₀ = 无接种剂,A₁ = 接种剂 A₁₃₂(蔬菜作物;32×10⁸CFU毫升-¹),A₂ = A₄₆₈(森林植物;41×10⁸CFU毫升-¹),A₃ = A₄₅₈ (森林植物;58×10⁸CFU毫升-¹),A₄ = A₄₇₁ (咖啡植物;35×10⁸CFU毫升-¹),A₅ = A₄₅₉(森林植物;63×10⁸CFU毫升-¹),A₆ = A₃₂₁ (木槿植物;37×10⁸CFU毫升-¹),以及 A₇ = A₃₅₆ (蔬菜植物;33 × 10⁸ CFU mL-¹),因子 2 是土壤含水量,包括 K₁ = 50%、K₂ = 75% 和 K₃ = 100%。结果表明,施用放线菌后,安地斯土壤中的钾含量从 42.46 ppm 增加到 159.20-266.60 ppm。放线菌处理中的放线菌数量为 27.33-31.58 × 10⁸ CFU mL-¹),土壤 pH 值为 4.41。含水量为 100%最能提高土壤 pH 值和放线菌数量,但对土壤中的可利用钾影响不大。放线菌的分子鉴定结果表明,A₃>A₅>A₂>A₄>A₁ 最具溶解 P 的潜力。
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引用次数: 0
Genotyping of rice (Oryza sativa L.) plants according to their root distribution pattern and their tolerance to drought 根据水稻(Oryza sativa L.)植株的根系分布模式及其对干旱的耐受性进行基因分型
Pub Date : 2023-12-22 DOI: 10.22146/ipas.84677
Adin Novitasari, I. A. Rumanti, R. H. Wening, D. Damanhuri
Drought condition is one of the major problems in producing rice in Indonesia. In plant breeding, selection is the main step to create superior varieties. An indicator of drought stress-tolerant rice varieties is the root distribution pattern because it describes the behavior of the roots in searching for water for photosynthesis and metabolism processes. One of the morphological traits related to drought tolerance in rice is root growth and development. This study aimed to determine the morphological and anatomical characteristics of drought-tolerant rice roots and identify drought-tolerant genotypes. The experiments were arranged in a factorial randomized block design with four replications. The first factor was genotype, consisting of ten genotypes. The second factor was drought stress, consisting of two environments without drought and with drought stress. Drought was given only in the vegetative phase, i.e., 1–14 days after planting. WINDEX analysis was performed to determine rice drought tolerance and identify drought-tolerant genotypes. The results showed that three out of the ten tested genotypes had higher WINDEX values, namely BP30411f (7.62), B13983-KA-6-3 (7.99), and BP29790d-PWK-2-SKI-1-3 (9.25). Based on the root distribution pattern, plants with longer primary root lengths, more seminal roots, longer seminal root lengths, and high root angles were predicted to be drought tolerant characteristics. Selection of these characters could be used in future rice breeding programs to obtain plants with superior genotypes.
干旱是印度尼西亚水稻生产的主要问题之一。在植物育种中,选育是培育优良品种的主要步骤。根系分布模式是抗旱水稻品种的一个指标,因为它描述了根系为光合作用和新陈代谢过程寻找水分的行为。与水稻耐旱性相关的形态特征之一是根的生长和发育。本研究旨在确定耐旱水稻根系的形态和解剖特征,并鉴定耐旱基因型。实验采用四次重复的因子随机区组设计。第一个因素是基因型,包括 10 个基因型。第二个因素是干旱胁迫,包括无干旱和有干旱胁迫两种环境。干旱仅在无性繁殖阶段(即播种后 1-14 天)施加。通过 WINDEX 分析,确定了水稻的耐旱性,并确定了耐旱基因型。结果表明,在 10 个测试基因型中,有 3 个基因型的 WINDEX 值较高,分别是 BP30411f(7.62)、B13983-KA-6-3(7.99)和 BP29790d-PWK-2-SKI-1-3(9.25)。根据根系分布模式,预测主根长度较长、精根较多、精根长度较长和根系角度较大的植株具有耐旱特性。在未来的水稻育种计划中,可通过选择这些特征来获得具有优良基因型的植株。
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引用次数: 0
Effects of mycorrhiza and phosphate fertilizers on the growth and yield of foxtail millet (Setaria italica L.) under drought stress conditions 菌根和磷肥对干旱胁迫条件下狐尾黍(Setaria italica L.)生长和产量的影响
Pub Date : 2023-12-22 DOI: 10.22146/ipas.71822
Anissatul Laili, O. Herliana, Ahadiyat Yugi Rahayu, Wilis Cahyani, Ahmad Fauzi
Millet is a cereal plant that’s potential for rice substitution. This plant is adaptive to be cultivated in dry land but has a tolerance limit to drought stress. Mycorrhiza and phospate (P) fertilizer treatments help plants adapt to this condition. This study aimed to determine the effects of phosphate fertilizer and mycorrhiza as well as their interaction effects on the growth and yield of foxtail millet (Setaria italica L.) under drought stress. The experiment was carried out from January to June 2020 in the experimental farm, Faculty of Agriculture, University of Jenderal Soedirman. The research was arranged in a factorial randomized complete block design consisting of two factors. The first factor was the dose of SP-36 fertilizer per polybag, namely P0 = 0 g, P1 = 37,5 kg.ha⁻¹ (25%), P2 = 75 kg.ha⁻¹ = 0.88 g/polybag (50%), and P3 = 150 kg.ha⁻¹. The second factor was the dose of mycorrhiza biofertilizer, namely M0 = 0 g.polibag⁻¹, M1 = 33.3 g. polibag⁻¹ and M2 = 66.6 g.polybag⁻¹. The treatment was replicated three times. The data observed were analyzed using the F test, continued with DMRT test at p=0.05. The results showed that SP-36 fertilizer application at half of the recommended dose (0.88 g/polybag) could increase growth variables, such as leaf area, panicle length, and seed weight. Mycorrhizae application 33.3 g/polybag could improve variables such as plant height, leaf area, panicle length, and seed weight. It also accelerated the initiation of panicle emergence compared to control.
小米是一种谷类植物,具有替代水稻的潜力。这种植物适应在旱地种植,但对干旱胁迫有一定的耐受极限。菌根和磷肥处理有助于植物适应这种条件。本研究旨在确定磷肥和菌根对干旱胁迫下狐尾黍(Setaria italica L.)的生长和产量的影响及其交互作用。实验于 2020 年 1 月至 6 月在 Jenderal Soedirman 大学农学院实验农场进行。研究采用因子随机完全区组设计,由两个因子组成。第一个因素是每个聚合袋的 SP-36 肥料剂量,即 P0 = 0 g、P1 = 37.5 kg.ha-¹ (25%)、P2 = 75 kg.ha-¹ = 0.88 g/聚合袋(50%)和 P3 = 150 kg.ha-¹。第二个因素是菌根生物肥的剂量,即 M0 = 0 g.polibag-¹, M1 = 33.3 g.polibag-¹ 和 M2 = 66.6 g.polybag-¹ 。处理重复三次。观察到的数据采用 F 检验和 DMRT 检验进行分析,P=0.05。结果表明,施用推荐剂量一半的 SP-36 肥料(0.88 克/多菌袋)可增加叶面积、圆锥花序长度和种子重量等生长变量。菌根剂施用量为 33.3 克/聚乙烯袋,可改善植株高度、叶面积、圆锥花序长度和种子重量等变量。与对照相比,菌根还能加快圆锥花序的萌发。
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引用次数: 0
Effects of seed soaking with plant growth regulators combination on the aggregation ability of shallot from seeds 用植物生长调节剂组合浸种对大葱种子聚集能力的影响
Pub Date : 2023-12-22 DOI: 10.22146/ipas.90993
R. Pangestuti, E. Sulistyaningsih, B. Kurniasih, R. H. Murti
The true seed of shallot (TSS) is an alternative technology to boost high-quality seeds, farming cost efficiency, and shallot productivity in Indonesia. Despite the advantages of TSS, including extended shelf life and lower seed requirements, farmer and consumer acceptance remains limited due to the genetic and physiological constraints leading to single and large-sized bulbs, as an effect of low aggregation ability. This caused shallot bulbs from TSS to have a low price and were not suitable for use as seed bulbs. This research addresses challenges in shallot (Allium cepa L. Aggregatum group) production from TSS by investigating the impact of various plant growth regulators (PGRs) treatments and different soaking time on shallot growth and aggregation ability of 'Tuk Tuk' planting from TSS. The study in Yogyakarta employed a split-plot randomized block design from July to November 2018. The main plot varied the PGRs combination (9 treatment), while the subplot used the soaking time of 4 hours and 12 hours. The results indicated that a GA₃ concentration of 100 ppm, in synergy with NAA at 50 ppm for 12 hours, effectively enhanced aggregation compared to another treatment. Notably, the 'Tuk Tuk' shallot, characterized by low aggregation ability, demonstrated improved potential through seed treatment by PGRs, which could raise the number of bulbs from one to an average of two bulbs per plant. This study enhanced shallot aggregation ability, providing valuable insights for research and developing shallot production from true seeds in Indonesia.
在印度尼西亚,大葱真种(TSS)是提高种子质量、农业成本效率和大葱产量的替代技术。尽管 TSS 具有延长保质期和降低种子需求量等优点,但由于聚合能力低,遗传和生理限制导致鳞茎单一且体积大,农民和消费者的接受程度仍然有限。这导致来自塔斯马尼亚州的大葱鳞茎价格低廉,不适合用作种球。本研究通过调查各种植物生长调节剂(PGRs)处理方法和不同浸泡时间对从TSS种植的 "Tuk Tuk "大葱生长和聚合能力的影响,解决了从TSS生产大葱(Allium cepa L. Aggregatum group)所面临的挑战。2018年7月至11月,在日惹进行的研究采用了分小区随机区组设计。主小区采用不同的PGRs组合(9个处理),子小区采用4小时和12小时的浸泡时间。结果表明,与其他处理相比,GA₃浓度为100ppm,与NAA浓度为50ppm协同作用12小时,可有效提高聚合度。值得注意的是,聚合能力较低的 "Tuk Tuk "大葱通过使用 PGRs 处理种子后显示出更大的潜力,可将每株的鳞茎数从一个增加到平均两个。这项研究提高了大葱的聚合能力,为印度尼西亚利用真种研究和发展大葱生产提供了宝贵的启示。
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引用次数: 0
Drought tolerance selection of several tomato varieties by using polyethylene glycol 利用聚乙二醇对多个番茄品种进行耐旱性筛选
Pub Date : 2023-12-22 DOI: 10.22146/ipas.80278
S. Avivi, Novrida Yanti Sitompul, T. A. Siswoyo, Mohammad Ubaidillah
A prolonged dry season can cause drought stress and have an unfavorable impact on the growth of tomato plants, resulting in crop failure. Therefore, research is needed on the resistance of tomato varieties to drought stress. The recommended technique for drought resistance screening in tomatoes is in vitro cultivation using Polyethylene Glycol (PEG). The research aimed to obtain new varieties that could be used as promising lines for varieties tolerant to drought stress. The research method used included using ingredients in the form of 5 varieties of tomatoes (Ratna, Intan, Chung, Palupi, and Amelia) and 5 concentrations of PEG chemicals (0%, 5%, 10%, 15%, and 20%). Each seed of each tomato variety that had been sterilized using hypochlorite was germinated on MS0 media, then the germinated seeds with a size of ± 0.3 cm were transferred to MS0 + PEG treatment medium with each treatment concentration. The seeds that had been planted on the PEG-treated medium were then observed for growth for ± 4 weeks. The research data were analyzed using analysis of variance (ANOVA) and followed with DMRT at the 5% significance level. Based on the results, Palupi variety is the most tolerant variety, and Ratna variety is the most intolerant variety to drought stress. The higher the concentration of PEG used, the more it inhibits plant height, root length, and fresh weight of the roots.
长期干旱季节会造成干旱胁迫,对番茄植株的生长产生不利影响,导致作物歉收。因此,需要研究番茄品种对干旱胁迫的抗性。番茄抗旱性筛选的推荐技术是使用聚乙二醇(PEG)进行离体培养。研究的目的是获得新品种,作为抗旱品种的希望品系。研究方法包括使用 5 个番茄品种(Ratna、Intan、Chung、Palupi 和 Amelia)和 5 种浓度的 PEG 化学品(0%、5%、10%、15% 和 20%)。使用次氯酸盐灭菌的每个番茄品种的每粒种子都在 MS0 培养基上发芽,然后将大小为 ± 0.3 厘米的发芽种子转移到各处理浓度的 MS0 + PEG 处理培养基上。然后观察在 PEG 处理培养基上种植的种子的生长情况(± 4 周)。研究数据采用方差分析(ANOVA)进行分析,并在 5%的显著性水平下采用 DMRT 进行分析。结果表明,Palupi 品种对干旱胁迫最耐受,而 Ratna 品种对干旱胁迫最不耐受。使用的 PEG 浓度越高,对株高、根长和根鲜重的抑制作用越大。
{"title":"Drought tolerance selection of several tomato varieties by using polyethylene glycol","authors":"S. Avivi, Novrida Yanti Sitompul, T. A. Siswoyo, Mohammad Ubaidillah","doi":"10.22146/ipas.80278","DOIUrl":"https://doi.org/10.22146/ipas.80278","url":null,"abstract":"A prolonged dry season can cause drought stress and have an unfavorable impact on the growth of tomato plants, resulting in crop failure. Therefore, research is needed on the resistance of tomato varieties to drought stress. The recommended technique for drought resistance screening in tomatoes is in vitro cultivation using Polyethylene Glycol (PEG). The research aimed to obtain new varieties that could be used as promising lines for varieties tolerant to drought stress. The research method used included using ingredients in the form of 5 varieties of tomatoes (Ratna, Intan, Chung, Palupi, and Amelia) and 5 concentrations of PEG chemicals (0%, 5%, 10%, 15%, and 20%). Each seed of each tomato variety that had been sterilized using hypochlorite was germinated on MS0 media, then the germinated seeds with a size of ± 0.3 cm were transferred to MS0 + PEG treatment medium with each treatment concentration. The seeds that had been planted on the PEG-treated medium were then observed for growth for ± 4 weeks. The research data were analyzed using analysis of variance (ANOVA) and followed with DMRT at the 5% significance level. Based on the results, Palupi variety is the most tolerant variety, and Ratna variety is the most intolerant variety to drought stress. The higher the concentration of PEG used, the more it inhibits plant height, root length, and fresh weight of the roots.","PeriodicalId":13282,"journal":{"name":"Ilmu Pertanian (Agricultural Science)","volume":"1 2","pages":""},"PeriodicalIF":0.0,"publicationDate":"2023-12-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"138944087","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
引用次数: 0
Effects of seed size and nursery media on the germination and seedling growth of Plukenetia conophora 种子大小和育苗介质对锥花栗属发芽和幼苗生长的影响
Pub Date : 2023-12-22 DOI: 10.22146/ipas.80771
N. Onwubiko, Raymond Onyedikachi Enwereji
Research on the effects of seed size, soil-based and soilless media to determine the best condition for increased seedling production of African walnut was carried out at the green house of Department of Crop Science and Technology, Federal University of Technology, Owerri. Seed size was categorized into 10.23 to 10.31g (for large seeds) and below 10.23g (for small seeds). Soil-based nursery medium was sawdust mixed with topsoil volume by volume (v/v) 1:1, while soilless was sawdust alone. The experiment was a 2×3 factorial in a complete randomized design with 6 replications. Data were collected on number of days to emergence, plant height at 4, 8, and 12 weeks after planting (WAP), and number of leaves at 4, 8, and 12 WAP. Data collected were tested with analysis of variance (ANOVA), and treatment means were separated with Fishers least significant difference at 5% level of probability. Result showed that large seeds planted on soil-based media performed best in all the assessed traits. The inference is that high quality seedlings of African walnut can be produced by planting large seeds in soil-based media.
为了确定提高非洲核桃幼苗产量的最佳条件,我们在奥韦里联邦理工大学作物科学与技术系的温室中对种子大小、土壤介质和无土栽培介质的影响进行了研究。种子大小分为 10.23 至 10.31 克(大种子)和 10.23 克以下(小种子)。有土育苗介质为锯屑与表土按体积比(v/v)1:1 混合,无土育苗介质仅为锯屑。试验采用 2×3 因式完全随机设计,6 次重复。收集的数据包括出苗天数、播种后 4 周、8 周和 12 周的株高、播种后 4 周、8 周和 12 周的叶片数。对收集的数据进行了方差分析(ANOVA),并在 5%的概率水平上用菲舍尔最小显著性差异法对处理均值进行了区分。结果表明,在基于土壤的培养基上种植的大粒种子在所有评估性状中表现最佳。由此推断,在基于土壤的培养基上种植大粒种子可以培育出优质的非洲核桃幼苗。
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引用次数: 0
The role of mycorrhiza and humic acid on quantitative and qualitative traits of faba bean plant under different fertilizer regimes 不同肥料制度下菌根和腐植酸对蚕豆植物数量和质量性状的影响
Pub Date : 2023-12-22 DOI: 10.22146/ipas.88272
Mandana Mirbakhsh, Seyedeh Sara SOHRABİ SEDEH
In sustainable agricultural ecosystem management, a key focus is on minimizing chemical fertilizer use and maximizing the use of non-chemical alternatives. Our study was designed to explore the impact of mycorrhizal fungi and humic acid (HA) on the quantitative and qualitative characteristics of faba beans under varying chemical fertilizer levels. The experiment involved different treatments, which included HA and mycorrhiza in four variations (control, HA, HA+ mycorrhiza, and mycorrhiza alone), and nitrogen, phosphorus, and potassium (NPK) fertilizers at three different dosages (50%, 75%, and 100% of the recommended amount). The findings revealed that combining HA with mycorrhiza significantly influenced root colonization, with the highest chlorophyll a concentration (1.58 mg g⁻¹) observed in the HA+ mycorrhiza treatment at 75% NPK. This treatment also led to the highest counts in seeds per pod, number of pods, and weight of 100 seeds. Between the 100% and 75% NPK levels in the HA+ mycorrhiza treatment, no significant differences were noted in terms of grain and biological yield. The greatest grain yields were measured at 4356 kg ha⁻¹ and 4322 kg ha⁻¹ for the HA+ mycorrhiza treatment at 100% and 75% NPK, respectively. Additionally, the highest concentrations of Fe, N, P, K, and Zn were observed with the HA+ mycorrhiza application at the 100% NPK level.
在可持续农业生态系统管理中,最大限度地减少化肥使用和最大限度地使用非化学替代品是一个重点。我们的研究旨在探讨菌根真菌和腐植酸(HA)在不同化肥水平下对蚕豆数量和质量特性的影响。实验涉及不同的处理,其中包括四种不同的 HA 和菌根(对照、HA、HA+ 菌根和单独菌根),以及三种不同用量的氮磷钾(NPK)肥料(建议用量的 50%、75% 和 100%)。研究结果表明,HA 与菌根的结合会显著影响根的定殖,在 75% NPK 的 HA+ 菌根处理中观察到最高的叶绿素 a 浓度(1.58 mg g-¹)。该处理还导致每荚种子数、荚果数和 100 粒种子重量最高。在氮磷钾含量为 100%和 75%的 HA+菌根处理中,谷物产量和生物产量没有显著差异。在氮磷钾含量为 100% 和 75% 的情况下,HA+菌根处理的最大谷物产量分别为 4356 kg ha-¹ 和 4322 kg ha-¹。此外,在施用 100%氮磷钾水平的 HA+菌根处理中,铁、氮、磷、钾和锌的浓度最高。
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引用次数: 0
Effects of different soil management styles and cropping practices on the yield and quality of fava bean (Vicia faba L.) 不同土壤管理方式和种植方式对蚕豆产量和品质的影响
Pub Date : 2023-08-28 DOI: 10.22146/ipas.86332
Somayeh Karami
This research aimed to determine the effects of various soil tillage techniques and the use of organic and chemical fertilizers on the overall yield and quality of fava beans. The study emphasized the significance of fertilizer types and their interaction with soil tillage methods. Although the quantity of grains per pod was notably influenced by the choice of fertilizers, the impact of soil tillage alone was found to be insignificant. Moreover, this study demonstrated that the yield index of fava beans was significantly influenced by fertilizer sources, emphasizing the importance of proper nitrogen managements. These findings provide valuable insights for enhancing crop production and quality through optimized soil tillage practices and the use of organic and chemical fertilizers. Through an examination of both the measurable and qualitative elements of fava bean cultivation, this study offers valuable knowledge on how to optimize the application of nitrogen fertilizers and effectively utilize mycorrhizal inoculation to improve grain yield and seed quality. These findings have implications for sustainable agriculture practices and guide farmers and researchers in making informed decisions regarding soil management strategies in fava bean cultivation.
本研究旨在确定各种土壤耕作技术以及有机肥料和化肥的使用对蚕豆总产量和质量的影响。该研究强调了肥料类型的重要性及其与土壤耕作方法的相互作用。尽管每荚的谷物数量受到肥料选择的显著影响,但仅土壤耕作的影响并不显著。此外,本研究表明,蚕豆的产量指数受肥料来源的显著影响,强调了适当的氮管理的重要性。这些发现为通过优化土壤耕作做法以及使用有机肥料和化肥来提高作物产量和质量提供了宝贵的见解。本研究通过对蚕豆栽培的可测量和定性元素的研究,为如何优化氮肥施用和有效利用菌根接种提高粮食产量和种子质量提供了宝贵的知识。这些发现对可持续农业实践具有启示意义,并指导农民和研究人员就蚕豆种植的土壤管理策略做出明智的决定。
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引用次数: 0
Effects of husk charcoal and watering on the biochemical and physiological properties of coix millet (Coix lacryma jobi L.) during vegetative phase 谷壳炭和水分处理对谷子营养期生理生化特性的影响
Pub Date : 2023-08-28 DOI: 10.22146/ipas.79244
Fadillatunnisa Fadillatunnisa, D. Indradewa, E. Putra
Continuous climate change increases the number of droughts in some areas, thereby affecting agricultural production. Cultivation of coix millet (Jali plant in Indonesian) is profitable because of its high adaptability to drought stress, and its seeds have the potential to be used as food due to their benefits for body health. The application of organic matter, namely husk charcoal, was chosen to increase agricultural production under drought stress. Therefore, this study aimed to determine the effects of husk charcoal on the biochemical and physiological properties of coix millet during vegetative phase under drought stress and to determine the longest watering interval the plant can tolerate. Research was arranged in a split-plot design with three replications. The main plot consisted of three watering intervals (every two, four, and six days). The sub-plots consisted of three doses of husk charcoal, namely 0 g polybag⁻¹ (0 tons ha⁻¹), 32 g polybag⁻¹ (10 tons ha⁻¹), and 64 g polybag⁻¹ (20 tons ha⁻¹). The data were analyzed using analysis of variance (ANOVA) and tested using Duncan's Multiple Distance Test (DMRT) at a significant level of 5%. The results showed that husk charcoal could increase the chlorophyll content in plants experiencing drought stress. The longest watering interval that could be tolerated by coix millet given husk charcoal at the optimal dose (64 g polybag⁻¹) was once every four days.
持续的气候变化增加了一些地区的干旱次数,从而影响了农业生产。椰壳小米(印尼的Jali植物)的种植是有利可图的,因为它对干旱胁迫的适应性很强,而且它的种子对身体健康有益,有潜力用作食物。选择施用有机物质,即壳炭,在干旱胁迫下提高农业产量。因此,本研究旨在确定谷壳炭在干旱胁迫下营养期对椰壳小米生化和生理特性的影响,并确定该植物能耐受的最长浇水间隔。研究安排在三个重复的分裂地块设计中。主地块由三个浇水间隔组成(每两天、四天和六天)。子地块由三剂壳炭组成,即0 g聚乙烯袋⁻(0吨公顷⁻cco),32克塑料袋⁻cco(10吨公顷⁻和64克塑料袋⁻(20吨公顷⁻cco)。使用方差分析(ANOVA)对数据进行分析,并使用邓肯多重距离检验(DMRT)在5%的显著水平上进行测试。结果表明,壳炭能提高干旱胁迫下植物的叶绿素含量。椰壳小米在最佳剂量下(64克聚乙烯袋)可耐受的最长浇水间隔⁻cco)每四天一次。
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引用次数: 0
Principal component analysis (PCA) on temporal changes of soil health indicators 土壤健康指标随时间变化的主成分分析
Pub Date : 2023-08-28 DOI: 10.22146/ipas.85271
Fakher Kardoni
Soil health indicators are related to environmental factors, such as nutrient management, crop practices, different cropping systems, and biodiversity. 14 soil health indicators were measured and compared in our study to clarify the impact of different cropping system on soil quality. The primary comparisons were carried out among perennial plants, annual plants, and cover cropping, with an examination of the tillage system and fertilization taken into account during the analysis. Multivariant analysis recorded that the most promising indicators of soil health that related to soil quality and health were organic carbon (OC), total carbon (TC), followed by fall soil total nitrogen (TN). The main factor for clustering treatments based on indicators was N fertilization according to Euclidean distance that was applied to measure similarity of the groups. Although perennials and cover crops recorded more carbon sequestration and TC improvement, corn crops showed the worse impact on soil pH and bulk density (BD). Non-tillage practices significantly increased wet aggregate and soil moisture. The combination of TC field measurements with long-term cropping systems information has improved our understanding of how different cropping practices influence SOC improvement in soil full profile. It would develop appropriate and cost-effective agricultural management activities, maintain or improve carbon soil accumulation to guide farmer decision making, and ultimately advance food and nutritional security.
土壤健康指标与环境因素有关,如养分管理、作物做法、不同的种植制度和生物多样性。为了阐明不同种植制度对土壤质量的影响,本研究对14项土壤健康指标进行了测量和比较。对多年生植物、一年生植物和覆盖作物进行了初步比较,并对耕作制度和施肥进行了考察。多变量分析结果显示,与土壤质量和健康相关的土壤健康指标中,有机碳(OC)、全碳(TC)、秋季土壤全氮(TN)最具潜力。基于指标的聚类处理的主要因子是根据欧氏距离施氮量来衡量类群相似性。多年生植物和覆盖作物对土壤固碳和碳转化率的影响较大,但玉米作物对土壤pH和容重的影响较差。免耕显著提高了湿团聚体和土壤水分。TC田间测量与长期种植系统信息的结合提高了我们对不同种植方式如何影响土壤全剖面有机碳改善的理解。它将发展适当和具有成本效益的农业管理活动,保持或改善土壤碳积累,以指导农民决策,并最终促进粮食和营养安全。
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Ilmu Pertanian (Agricultural Science)
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