scholarly journals Natural Fungal Endophytes From Noccaea caerulescens Mediate Neutral to Positive Effects on Plant Biomass, Mineral Nutrition and Zn Phytoextraction

2021 ◽  
Vol 12 ◽  
Author(s):  
Loïc Yung ◽  
Catherine Sirguey ◽  
Antonin Azou-Barré ◽  
Damien Blaudez
Keyword(s):  
Plant Nutrition ◽  
Plant Biomass ◽  
Growth Promotion ◽  
Fungal Endophytes ◽  
Positive Effects ◽  
Noccaea Caerulescens ◽  
Native Strains ◽  
Hyperaccumulating Plants ◽  
Phytoextraction Potential ◽  
Assisted Phytoextraction

Phytoextraction using hyperaccumulating plants is a method for the remediation of soils contaminated with trace elements (TEs). As a strategy for improvement, the concept of fungal-assisted phytoextraction has emerged in the last decade. However, the role played by fungal endophytes of hyperaccumulating plants in phytoextraction is poorly studied. Here, fungal endophytes isolated from calamine or non-metalliferous populations of the Cd/Zn hyperaccumulator Noccaea caerulescens were tested for their growth promotion abilities affecting the host plant. Plants were inoculated with seven different isolates and grown for 2 months in trace element (TE)-contaminated soil. The outcomes of the interactions between N. caerulescens and its native strains ranged from neutral to beneficial. Among the strains, Alternaria thlaspis and Metapochonia rubescens, respectively, isolated from the roots of a non-metallicolous and a calamine population of N. caerulescens, respectively, exhibited the most promising abilities to enhance the Zn phytoextraction potential of N. caerulescens related to a significant increase of the plant biomass. These strains significantly increased the root elemental composition, particularly in the case of K, P, and S, suggesting an improvement of the plant nutrition. Results obtained in this study provide new insights into the relevance of microbial-assisted phytoextraction approaches in the case of hyperaccumulating plants.

scholarly journals The Effects of Plant Growth-Promoting Bacteria with Biostimulant Features on the Growth of a Local Onion Cultivar and a Commercial Zucchini Variety

Agronomy ◽  
2021 ◽  
Vol 11 (5) ◽  
pp. 888
Author(s):  
Giorgia Novello ◽  
Patrizia Cesaro ◽  
Elisa Bona ◽  
Nadia Massa ◽  
Fabio Gosetti ◽  
...  
Keyword(s):  
Plant Growth ◽  
Growth Promotion ◽  
Global Market ◽  
Plant Growth Promoting Bacteria ◽  
Bacterial Strains ◽  
Mineral Concentration ◽  
Positive Effects ◽  
Plant Growth Promoting ◽  
Onion Cultivar ◽  
Growth Promoting

The reduction of chemical inputs due to fertilizer and pesticide applications is a target shared both by farmers and consumers in order to minimize the side effects for human and environmental health. Among the possible strategies, the use of biostimulants has become increasingly important as demonstrated by the fast growth of their global market and by the increased rate of registration of new products. In this work, we assessed the effects of five bacterial strains (Pseudomonas fluorescens Pf4, P. putida S1Pf1, P. protegens Pf7, P. migulae 8R6, and Pseudomonas sp. 5Vm1K), which were chosen according to their previously reported plant growth promotion traits and their positive effects on fruit/seed nutrient contents, on a local onion cultivar and on zucchini. The possible variations induced by the inoculation with the bacterial strains on the onion nutritional components were also evaluated. Inoculation resulted in significant growth stimulation and improvement of the mineral concentration of the onion bulb, induced particularly by 5Vm1K and S1Pf1, and in different effects on the flowering of the zucchini plants according to the bacterial strain. The present study provides new information regarding the activity of the five plant growth-promoting bacteria (PGPB) strains on onion and zucchini, two plant species rarely considered by the scientific literature despite their economic relevance.

scholarly journals Divergent responses of biomass accumulation and its allocation to the altered precipitation regimes among different degraded grasslands in China

2021 ◽  
Author(s):  
Tianxue Yang ◽  
Junda Chen ◽  
Xiaoyue Zhong ◽  
Xuechen Yang ◽  
Gui Wang ◽  
...  
Keyword(s):  
Climate Models ◽  
Plant Biomass ◽  
Inorganic Nitrogen ◽  
Precipitation Amount ◽  
Soil Layer ◽  
Ecosystem Functions ◽  
Precipitation Frequency ◽  
Positive Effects ◽  
Altered Precipitation ◽  
Precipitation Regimes

Abstract Purpose Climate models predict shifts in precipitation patterns characterized by increased precipitation amount and decreased frequency for semi-arid grasslands in northeast China. However, under these novel climatic conditions, potential differences in plant biomass and its allocation among different degraded grasslands remain unclear.Methods We conducted a mesocosm experiment to test the effects of higher precipitation amount (increased by 50% from the long-term mean) and lower frequency (decreased by 50%) on plant biomass and allocation in the lightly degraded (LDG), moderately degraded (MDG), and severely degraded grasslands (SDG).Results Lower precipitation frequency promoted belowground biomass (BGB), while reducing aboveground biomass (AGB) allocation through enhancing soil water variability. Higher precipitation amount enhanced AGB in LDG and MDG, but not in SDG due to less soil inorganic nitrogen. Lower precipitation frequency weakened the positive effects of higher precipitation amount on biomass. Under altered precipitation, adjustment of AGB vs. BGB allocation was the primary biomass allocation strategy in LDG and SDG. However, to maintain water acquirement, plants in MDG preferred to adjust root vertical distribution, and allocated more roots to the deep soil layer where had a relatively stable water source. This strategy was driven by the changes in plant community composition of the dominant species in MDG.Conclusions The findings of this research emphasized the importance of considering the degradation level of grasslands when predicting the responses of the ecosystem functions to the projected changes in precipitation regime. These findings are critical for making feasible decisions for the sustainable management of degraded grasslands.

scholarly journals Mitigation of Nickel Toxicity and Growth Promotion in Sesame through the Application of a Bacterial Endophyte and Zeolite in Nickel Contaminated Soil

2020 ◽  
Vol 17 (23) ◽  
pp. 8859 ◽  
Author(s):  
Muhammad Naveed ◽  
Syeda Sosan Bukhari ◽  
Adnan Mustafa ◽  
Allah Ditta ◽  
Saud Alamri ◽  
...  
Keyword(s):  
Plant Growth ◽  
Contaminated Soil ◽  
Root Zone ◽  
Plant Biomass ◽  
Growth Promotion ◽  
Research Work ◽  
Control Treatment ◽  
Soil Conditions ◽  
Combined Application ◽  
Bioavailable Fraction

Nickel (Ni) bioavailable fraction in the soil is of utmost importance because of its involvement in plant growth and environmental feedbacks. High concentrations of Ni in the soil environment, especially in the root zone, may retard plant growth that ultimately results in reduced plant biomass and yield. However, endophytic microorganisms have great potential to reduce the toxicity of Ni, especially when applied together with zeolite. The present research work was conducted to evaluate the potential effects of an endophytic bacterium Caulobacter sp. MN13 in combination with zeolite on the physiology, growth, quality, and yield of sesame plant under normal and Ni stressed soil conditions through possible reduction of Ni uptake. Surface sterilized sesame seeds were sown in pots filled with artificially Ni contaminated soil amended with zeolite. Results revealed that plant agronomic attributes such as shoot root dry weight, total number of pods, and 1000-grains weight were increased by 41, 45, 54, and 65%, respectively, over control treatment, with combined application of bacteria and zeolite in Ni contaminated soil. In comparison to control, the gaseous exchange parameters (CO2 assimilation rate, transpiration rate, stomatal- sub-stomatal conductance, chlorophyll content, and vapor pressure) were significantly enhanced by co-application of bacteria and zeolite ranging from 20 to 49% under Ni stress. Moreover, the combined utilization of bacteria and zeolite considerably improved water relations of sesame plant, in terms of relative water content (RWC) and relative membrane permeability (RMP) along with improvement in biochemical components (protein, ash, crude fiber, fat), and micronutrients in normal as well as in Ni contaminated soil. Moreover, the same treatment modulated the Ni-stress in plants through improvement in antioxidant enzymes (AEs) activities along with improved Ni concentration in the soil and different plant tissues. Correlation and principal component analysis (PCA) further revealed that combined application of metal-tolerant bacterium Caulobacter sp. MN13 and zeolite is the most influential strategy in alleviating Ni-induced stress and subsequent improvement in growth, yield, and physio-biochemical attributes of sesame plant.

Screening fungal endophytes from a wild grass for growth promotion in tritordeum, an agricultural cereal

Plant Science ◽  
2021 ◽  
Vol 303 ◽  
pp. 110762
Author(s):  
Beatriz R. Vázquez de Aldana ◽  
Juan B. Arellano ◽  
María José Cuesta ◽  
Elena Mellado-Ortega ◽  
Virginia González ◽  
...  
Keyword(s):  
Growth Promotion ◽  
Fungal Endophytes ◽  
Wild Grass

Pseudomonads contribute to regulation ofPratylenchus penetrans(Nematoda) populations on apple

2018 ◽  
Vol 64 (11) ◽  
pp. 775-785 ◽  
Author(s):  
Tristan T. Watson ◽  
Tom A. Forge ◽  
Louise M. Nelson
Keyword(s):  
Pseudomonas Fluorescens ◽  
Protease Activity ◽  
Fungal Pathogens ◽  
Plant Biomass ◽  
Growth Promotion ◽  
In Vitro Growth ◽  
Pratylenchus Penetrans ◽  
Pseudomonas Spp ◽  
Orchard Soil

Inoculation with antagonistic soil microorganisms has shown potential to suppress replant disease of apple in orchard soils. Pseudomonas spp. may have the potential to reduce Pratylenchus penetrans populations on apple. Pseudomonas spp. were isolated from the rhizosphere of sweet cherry and screened for antagonistic characteristics. Two highly antagonistic Pseudomonas isolates, P10-32 and P10-42, were evaluated for growth promotion of apple seedlings, suppression of P. penetrans populations, and root colonization in soil from three orchards. During the isolate screening, Pseudomonas fluorescens P10-32 reduced in vitro growth of fungal pathogens, had protease activity, had capacity to produce pyrrolnitrin, suppressed P. penetrans populations, and increased plant biomass. Pseudomonas fluorescens P10-42 reduced in vitro growth of fungal pathogens, had protease activity, suppressed P. penetrans populations, and increased plant biomass. In potted orchard soil, inoculating apple with P. fluorescens P10-32 suppressed P. penetrans populations in one of the three soils examined. Inoculation with P. fluorescens P10-42 improved plant growth in two of the soils and suppressed P. penetrans abundance in one soil. In one of the soils, P. fluorescens P10-42 was detected on the roots 56 days postinoculation. Overall, we conclude that Pseudomonas spp. play a role in suppressing P. penetrans on apple in orchard soil.

Comparison of the plant growth-promotion performance of a consortium of Bacilli inoculated as endospores or as vegetative cells

2019 ◽  
Vol 95 (11) ◽  
Author(s):  
Isha Hashmi ◽  
Christophe Paul ◽  
Andrej Al-Dourobi ◽  
Frederic Sandoz ◽  
Priscilla Deschamps ◽  
...  
Keyword(s):  
Seed Germination ◽  
Plant Growth ◽  
Positive Impact ◽  
Growth Promotion ◽  
Soil Microbial Communities ◽  
Vegetative Cells ◽  
Single Strain ◽  
Positive Effects ◽  
Pot Experiments

ABSTRACT The effect of three plant growth-promoting Bacillus strains inoculated either alone or as a consortium was tested on oat (Avena sativa) growth. The bioinoculants were applied as vegetative cells or endospores at low cell densities on the seeds and their effect was tested in sterile in vitro conditions, pot experiments, and a field trial. The in vitro seed germination assay showed that both individual bacterial inocula and bacterial consortia had positive effects on seed germination. Greenhouse pot experiments with sterile and non-sterile soil showed that consortia increased the total dry biomass of oat plants as compared to single strain inoculation and uninoculated controls. However, the positive impact on plant growth was less prominent when the bioinoculated strains had to compete with native soil microbes. Finally, the field experiment demonstrated that the consortium of vegetative cells was more efficient in promoting oat growth than the endospore consortium and the uninoculated control. Moreover, both consortia successfully colonized the roots and the rhizosphere of oat plants, without modifying the overall structure of the autochthonous soil microbial communities.

scholarly journals Investigation of Pellet Properties Produced from a Mix of Straw and Paper Sludge

2020 ◽  
Vol 10 (16) ◽  
pp. 5450 ◽  
Author(s):  
Radovan Nosek ◽  
Sebastian Werle ◽  
Aleksandra Borsukiewicz ◽  
Agnieszka Żelazna ◽  
Grzegorz Łagód
Keyword(s):  
Melting Temperature ◽  
Heat Exchangers ◽  
Fossil Fuels ◽  
Plant Biomass ◽  
Biomass Combustion ◽  
Paper Sludge ◽  
Wood Pellets ◽  
Positive Effects ◽  
Negative Impacts ◽  
Global Energy Consumption

Global energy consumption is increasing every year, and, despite their many negative impacts, fossil fuels are a major source of energy, but their reserves are gradually depleting. One of the promising but underutilized resources is plant biomass (phytomass). The main problem of plant biomass combustion is the low melting temperature of ash, but there are also problems with corrosion of heat exchangers and clogging of heat-exchanging surfaces. This work is concerned with the production of straw pellets in order to increase the melting temperature of ash by adding an additive. The paper sludge contains substances that can increase the melting point of ash and was therefore added to the pellet samples. This additive was mixed with straw in ratios from 90:10, 80:20 and 70:30 (straw/paper sludge). The use of paper sludge showed positive effects on increasing the melting temperature of the ash samples. The deformation temperature of the ash has already risen from 1020 to 1260 °C after the addition of 10% sludge, which is comparable to wood pellets.

scholarly journals Species richness alters spatial nutrient heterogeneity effects on above-ground plant biomass

2017 ◽  
Vol 13 (12) ◽  
pp. 20170510 ◽  
Author(s):  
Nianxun Xi ◽  
Chunhui Zhang ◽  
Juliette M. G. Bloor
Keyword(s):  
Species Richness ◽  
Plant Density ◽  
Plant Biomass ◽  
Meta Analysis ◽  
Nutrient Heterogeneity ◽  
Positive Effects ◽  
Ground Biomass ◽  
Below Ground ◽  
Heterogeneity Effects ◽  
Community Production

Previous studies have suggested that spatial nutrient heterogeneity promotes plant nutrient capture and growth. However, little is known about how spatial nutrient heterogeneity interacts with key community attributes to affect plant community production. We conducted a meta-analysis to investigate how nitrogen heterogeneity effects vary with species richness and plant density. Effect size was calculated using the natural log of the ratio in plant biomass between heterogeneous and homogeneous conditions. Effect sizes were significantly above zero, reflecting positive effects of spatial nutrient heterogeneity on community production. However, species richness decreased the magnitude of heterogeneity effects on above-ground biomass. The magnitude of heterogeneity effects on below-ground biomass did not vary with species richness. Moreover, we detected no modification in heterogeneity effects with plant density. Our results highlight the importance of species richness for ecosystem function. Asynchrony between above- and below-ground responses to spatial nutrient heterogeneity and species richness could have significant implications for biotic interactions and biogeochemical cycling in the long term.

scholarly journals Cycle of biomass and elements of plant nutrition in soybean crops depending on various preceding crops and primary tillage

2020 ◽  
Vol 11 (3) ◽  
pp. 61-69
Author(s):  
S. P. Tanchyk ◽  
◽  
D.V. Litvinov ◽  
V.V. Sinchenko ◽  
◽  
...  
Keyword(s):  
Nitrogen Removal ◽  
Plant Nutrition ◽  
Crop Residues ◽  
Plant Biomass ◽  
Spring Barley ◽  
Soil Tillage ◽  
Plant Residues ◽  
Soybean Plant ◽  
Biological Cycle ◽  
Primary Tillage

The article analyzes the main laws of the biological cycle of soybean plant biomass, and the parameters of recirculation of nutrients depending on the method and depth of the primary tillage and various preceding crops. It was found that the share of biomass alienated from the field with soybean harvest, depending on the various preceding crops and the primary tillage varied from 31,6 to 32,8 %, which in absolute terms ranged from 1,93 to 3,25 t/ha, and received to the soil with plant residues: from 3,97 to 6,67 t/ha or from 67,2 to 68,4 %. The largest amount of nutrients from 310,2 to 420,5 kg/ha of NPK is involved in soybean crops placed after cereals (winter wheat and spring barley) in the variant of cultivated without soil tillage by 20-22 cm (chisel-deep-tiller), and the lowest after corn for grain from 251,1 to 302,9 kg / ha NPK obtained in the variant during plowing by 20-22 cm. The largest share in the total amount of nutrients in soybean biomass belongs to nitrogen from 61,6 to 65,3 %, the share of phosphorus varies from 12,4 to 14,4 %, and potassium from 20,3 to 25,7 %. The amount of nutrients returned to the soil with plant residues, in relation to their content in the biomass ranges from 41.7 to 55.4% nitrogen, 11,1-14,7 phosphorus and 30,0-46,9 % potassium. It was found that the largest amount of nitrogen enters the soil with crop residues in the variant of soybean placement after soybean and main tillage (disc harrow) by 12-14 cm – 55,4 %. The share of phosphorus was 14,7 %, potassium – 29,8 %. When growing soybeans after cereals, corn for grain and sunflower, the intake of nitrogen in the soil with plant residues was 41,7-42,8 %, phosphorus 11,1-11,2 %, potassium 45,8-46,9 %. The lowest percentage of nitrogen removal - 69.5-69.6% was for the placement of soybeans after soybeans. Although for the removal of phosphorus (14,3%) and potassium – (16,1%) the option of placing soybeans after cereals, corn and sunflower prevailed, where these indicators were respectively (13,0-13,1 %) and (14,5- 14,7 %).

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