Potential applications for multifunctional microalgae in soil improvement

Song, Xiaotong; Bo, Yahui; Feng, Yanzhang; Tan, Yinghong; Zhou, Chengxu; Yan, Xiaojun; Ruan, Roger; Xu, Qingshan; Cheng, Pengfei

doi:10.3389/fenvs.2022.1035332

Cited by 8 publications

(4 citation statements)

References 96 publications

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“…Sensitive algal species are located only in particular microhabitat conditions of terrestrial areas, whereas the highly tolerant and adaptable species are cosmopolitan in distribution. The ecological roles of terrestrial algae, especially those in soil systems (Agha et al., 2020; Song et al., 2022) and other subaerial environments, are diverse. However, compared to the voluminous literature on algae in specific aquatic environments, the research reports on algae in distinctive terrestrial habitats are minimal.…”

Section: Introductionmentioning

confidence: 99%

“…Soil algal association with specific non‐vascular and vascular plants, especially its role in life‐cycle completion, competition, and niche organization of different species of plants in terrestrial ecosystems, remains a critical question that is open for further intensive field and experimental research. Therefore, ecological exploration of soil algal flora with an emphasis on identifying their specific roles in soils and crops and the ecology of soil algae could lead to many applications for sustainable soil health management (Song et al., 2022; Zhang & Koehler, 2022) and agriculture. The growing literature on soil and other subaerial algae has become essential from both biodiversity and ecological perspectives, especially as a changing climate may influence the sensitive algal species (Kholssi et al., 2023) of soil microhabitats.…”

Section: Introductionmentioning

confidence: 99%

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A critical review of soil algae as a crucial soil biological component of high ecological and economic significance

Joseph,

Ray

2024

Journal of Phycology

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Aero‐terrestrial algae are ecologically and economically valuable bioresources contributing to carbon sequestration, sustenance of soil health, and fertility. Compared to aquatic algae, the literature on subaerial algae is minimal, including studies of distinctive habitats such as forest soils, agricultural fields, deserts, polar regions, specific subaerial zones, artificial structures, and tropical soils. The primary goal here was to identify the gaps and scope of research on such algae. Accordingly, the literature was analyzed per sub‐themes, such as the “nature of current research data on terrestrial algae,” “methodological approaches,” “diversity,” “environmental relationships,” “ecological roles,” and “economic significance.” The review showed there is a high diversity of algae in soils, especially members belonging to the Cyanophyta (Cyanobacteria) and Chlorophyta. Algal distributions in terrestrial environments depend on the microhabitat conditions, and many species of soil algae are sensitive to specific soil conditions. The ecological significance of soil algae includes primary production, the release of biochemical stimulants and plant growth promoters into soils, nitrogen fixation, solubilization of minerals, and the enhancement and maintenance of soil fertility. Since aero‐terrestrial habitats are generally stressed environments, algae of such environments can be rich in rare metabolites and natural products. For example, epilithic soil algae use wet adhesive molecules to fix them firmly on the substratum. Exploring the ecological roles and economic utility of soil and other subaerial algae could be helpful for the development of algae‐based industries and for achieving sustainable soil management.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A critical review of soil algae as a crucial soil biological component of high ecological and economic significance

Joseph,

Ray

2024

Journal of Phycology

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“…Algae have different classifications, while eukaryotes such as seaweeds, visible to the naked eye, are referred to as macroalgae; smaller unicellular organisms are collectively referred to as microalgae, which can be prokaryotic like Cyanophyceae (Chloroxybacteria) or eukaryotic like green microalgae (Chlorella vulgaris). Microalgae are referred to as a group of organisms with small dimensions and a simple structure but high photosynthetic Sustainability 2024, 16, 2529 2 of 16 efficiency [4][5][6]. Previous studies by Sharma et al [7], Hamed et al [8], Kapoore et al [2] and Leogrande et al [9] indicate that various algae have the potential to promote overall plant growth and development and greater resistance to biotic and abiotic stresses through low biomass foliar applications, which is promising for reducing the dependence on conventional synthetic fertilizers and pesticides, leading to a more sustainable and resilient agricultural system contributing to achieving zero hunger by enhancing crop productivity as well as improving social wellbeing through healthier plant growth and preserving marine and terrestrial ecosystems, increasing economic results and reducing the environmental footprint through carbon sequestration.…”

Section: Introductionmentioning

confidence: 99%

Algae Extracts in Horticulture: Characterization of Algae-Based Extracts and Impact on Turnip Germination and Radish Culture

Santos,

Cotas,

Pereira

et al. 2024

Sustainability

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Algae are rich in nutrients and bioactive compounds, playing a crucial role as biostimulants for plants, enhancing growth and resilience. Four algae-based extracts were tested: the raw extract of red macroalgae Calliblepharis jubata (CJ), Ulasco (UA), Grasco (GR) and “AgriAlgae Foliar” (AA), the latter with microalgae. The extracts were evaluated for their physicochemical parameters (pH, electrical conductivity and solids), macro and microelements, phenolic compounds and antioxidants. Afterwards, seed germination trials were carried out with turnip seeds (Brassica rapa var. cymosa L.), and pot trials were carried out with Cherry Belle (Flora Lusitana, Cantanhede, Portugal) radish plants (Raphanus sativus L.), to verify the biostimulant potential of the extracts in horticulture. In the pot trials, all the treatments led to better yields and nutritional quality. The UA 0.12 extract influenced the heaviest roots (40.32 ± 11.89 g), on average, and the GR 0.10 extract in roots with the highest percentage of proteins (1.866 ± 0.004% dm), phenolic compounds (0.12121 mg eq. gallic acid/g fm) and antioxidants (0.0754 ± 0.0000 mg eq. ascorbic acid/g fm). The radishes treated with the AA 0.003 extract showed the greatest uniformity, the healthiest leaves, with the highest flavonoid content and the heaviest aerial part (19.52 ± 5.99 g). All the extract treatments resulted in a visible mitigation of abiotic stress and consequently better results, showing that these can be crucial for sustainable agriculture.

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“…Microalgae and cyanobacteria, functioning as a primary producer, along with bacteria, collectively form the uppermost strata of soil known as the biological soil crust, and this intricate ecosystem plays a pivotal role in augmenting soil fertility and ultimately boosting crop productivity [12][13][14][15][16]. It enhances crop development and well-being through a processes such as nitrogen fixation, the release of trace elements into the soil, nutrient solubilization, production of exopolysaccharides, increasing organic matter, and improved nutrient retention within the plant-soil system, ultimately benefiting plant growth and providing an alternative to chemical fertilizers and pesticides [15,[17][18][19][20][21][22][23].…”

Section: Introductionmentioning

confidence: 99%

Harnessing the Synergy of the Cyanobacteria-Plant Growth Promoting Bacteria for Improved Maize (Zea mays) Growth and Soil Health

Solomon,

Mutum,

Rakszegi

et al. 2023

Sustainability

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Intensive use of chemicals in agriculture harms the soil, disrupts the ecological balance, and impacts microorganisms. Biofertilizers are gaining traction due to their eco-friendly and cost-effective benefits. This study evaluates the potential of the cyanobacterium MACC-612 (Nostoc piscinale) and plant growth-promoting bacteria (PGPB) (Azospirillum lipoferum, Pseudomonas fluorescens) in enhancing crop growth, yield, and soil health. A two-year field study was conducted using a factorial approach and a completely randomized block design, comprising four replications. The three levels of the cynobacterium (0, 0.3, or 1 g/L of N. MACC-612) and different bacteria strains were used in the experiments. The results demonstrated substantial enhancements in seed number per ear, kernel weight, and yield when using N. piscinale and PGPB, whether used individually or in combination. The soil pH, humus, (NO3− + NO2−)-nitrogen, and soil microbial biomass showed significant increases across both years. The combining application of the N. piscinale (0.3 g/L) with A. lipoferum increased grain yield by 33.20% in the first year and 31.53% in the second. The humus and (NO3− + NO2−)-nitrogen content significantly rose in treatments involving N. piscinale at 0.3 g/L combined with A. lipoferum at about 20.25% and 59.2%, respectively, in comparison to the untreated control. Hence, the most effective approach was the combined use of N. piscinale and A. lipoferum, which enhanced maize growth and soil fertility.

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Potential applications for multifunctional microalgae in soil improvement

Cited by 8 publications

References 96 publications

A critical review of soil algae as a crucial soil biological component of high ecological and economic significance

A critical review of soil algae as a crucial soil biological component of high ecological and economic significance

Algae Extracts in Horticulture: Characterization of Algae-Based Extracts and Impact on Turnip Germination and Radish Culture

Harnessing the Synergy of the Cyanobacteria-Plant Growth Promoting Bacteria for Improved Maize (Zea mays) Growth and Soil Health

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