3 A: Whole soil community PLFA profile and B: plated community PLFA profiles of samples obtained from Ritzville soil in the field and greenhouse. ○, field.

Slides:

Advertisements

Similar presentations

Accelerating ecological restoration of drastically disturbed land by promoting early establishment of microbial function Julie Williamson, Davey Jones,

Advertisements

Northwest Crops Project Dennis Pittmann, Dennis Roe and Anitra Gorham.

Roots and arbuscular mycorrhizal fungi influence nitrogen cycling in agricultural soils under contrasting management Amanda B. Daly, A. Stuart Grandy Department.

Introduction: One of the most important problem of agricultural soils in Greece is the low percentage of organic matter. Low levels of organic matter is.

Lsfdlkdfj ;la;fkd theklekrj Land Application of Organics: Quantifying Greenhouse Gas, Soil and Water Benefits Kate Kurtz and Sally Brown, University of.

Box 1 CO 2 mitigation potential of managed grassland: An example Franzluebbers et al. (2000; Soil Biol. Biochem. 32: ) quantified C sequestration.

Exploring How Composts Affect the Soil’s Plant and Microbial Community.

Surface Cover and Biomass in No-tillage Cropping Systems as Affected by Crop Rotation, Winter Cover Crop, and Winter Weeds Forbes Walker 1, Nick Ryan 1,

No-till and continuous cropping system studies in semiarid Montana to measure soil C sequestration Ryan Feddema 1, Rick Engel 1, Perry Miller 1, Ross Bricklemyer.

Phospholipid Fatty Acid Analysis Phospholipids are essential membrane components of all living cells Viable microbes have an intact membrane which contains.

FOR NOTES / ADDITIONAL MATERIAL not to be covered in 40 min.

FP7-ENV INFODAY 17 SEPTEMBER 2009, BRUSSELS Area Biodiversity Department of Agro-Environmental Sciences and Technologies (DiSTA) Alma Mater.

Diploma thesis (Spanien – Österreich): Title of the Project: “Effect of burning of Mediterranean macchia on ecosystem nitrogen stocks and the soil-atmosphere.

PLFA/FAME Analyses for Microbial Community Assessment

Effects of Fertilizer Addition on Microbial Respiration and Uptake of Carbon Monoxide in a Cerrado Soil Marirosa Molina 1, Richard Zepp 1, Alessandra Kozovits.

Trend for Precision Soil Testing % Zone or Grid Samples Tested compared to Total Samples.

Earth, Ecological, & Environmental Sciences

Stand age Fall Winter Summer I Spring Seasonal Mean (.12) 0.55 (.12) 0.62 (.18) 0.50 (.05) 0.73 (.19) 0.63 (.15) 0.46 (.03) 0.62 (.29)

Contribution of fungi activity for N 2 O emission in no-tillage with cover crop fields Zhaorigetu 1,2, T.Nishizawa 2, Y.Sato 2, M.Komatsuzaki 1, H.Ohta.

Influence of Nitrogen Sources and Soil pH on Soil Microbial Communities in a Long-term Crop Rotation System Reji Mathew, Yucheng Feng, and Charles Mitchell.

Microbial Community Analysis in Monosodium-methanearsonate Treated Rice Soils Anil Somenahally 1, Terry Gentry 1, Richard Loeppert 1 and Wengui Yan 2 1.

Decomposition rate (% AFDM day−1; mean ± SE) (a) and its relationship with incubation temperature in microcosms (b). Decomposition rate (% AFDM day−1;

Gross nitrogen mineralization and fungi-to-bacteria ratios are negatively correlated in boreal forests Mona N. Högberg, Yu Chen, Peter Högberg; Biol Fertil.

Linnea K. Honeker*, Julia W. Neilson, Jon Chorover, Raina M. Maier

Figure 1: effects of the fire frequency and season treatments on cumulative mean fire intensity (mean intensity of all fires on a plot × number of fires/period.

Figure 1 Porewater profiles of (A) dissolved sulfate concentration versus depth in the Whitworth Lagoon sediment and (B) sulfate/chloride ratios versus.

From: Bioleaching: metal solubilization by microorganisms

Clay minerals: Critical mediators of nitrogen availability in the rhizosphere Andrea Jilling1 and A. Stuart Grandy1 1Department of Natural Resources.

Long term Biochar versus Wood Ash Agronomic Field Trial at 6 months

Fig. 1. Locations of shelf station C3a and oceanic station S412.

From: Soil temperature modifies effects of soil biota on plant growth

4 A correlation between citrulline excretion and cell lysis by resting cells of L. buchneri CUC-3 in tartrate buffer (pH 3.6) without added arginine, citrulline.

Figure 1. Hydrogeological map of the Maocun watershed marked with the sampling sites. From: Contribution of aerobic anoxygenic phototrophic bacteria to.

Researched methods showed following values :

Figure 2 Effect of protease inhibitors added incubated 1 h at room temperature on biomarker detection in whole saliva. Results are expressed as mean channel.

3 Time course of p-coumaric acid degradation with Halomonas sp

4 Activities of SOD (A) and CAT (B) of P

Figure 1. The relationships of bacterial operational taxonomic unit richness (A) and phylogenetic diversity (B) with aridity index based on 97% sequence.

4 CVs of anaerobically grown A

%Zone or Grid Samples Tested Compared to Conventional Whole Field Composite Samples in 2017

Biogeochemistry of Wetlands

%Zone or Grid Samples Tested Compared to Conventional Whole Field Composite Samples in 2016

Soil and Water Science Department, University of Florida

ચાલો માટી વિશે જાણીએ All About Soil.

Global changes alter soil fungal communities

%Zone or Grid Samples Tested Compared to Conventional Whole Field Composite Samples in 2014

Figure 1 Mean ± standard error proportions of (a) courtship and (b) copulation by female-male type pairing. Error bars ... Figure 1 Mean ± standard error.

%Zone or Grid Samples Tested Compared to Conventional Whole Field Composite Samples in 2016

The effect of pressure on DNA deposition by touch

Discriminating between uncle-nephew and grandfather-grandson kinships by analyzing chromosomal sharing patterns Chie Morimoto, Sho Manabe, Shuntaro Fujimoto,

© 2012 Elsevier, Inc. All rights reserved.

Key Areas covered Fields exist around a charged particle and between charged parallel plates. Examples of electric field patterns for single-point charges,

Figure 1. Map of the South China Sea and location of the sampling site. Unless provided in the caption above, the following copyright applies to the content.

© 2012 Elsevier, Inc. All rights reserved.

(A) Amphibian SourceTracker analysis reveals that water is the only sample type that obtains a notable amount of its microbial community from amphibian.

© 2015 Elsevier, Inc. All rights reserved.

Towards Building a Plant Cell Atlas

Natural Sciences and Technology Grade 5

Figure 1. Map of Alaska indicating the location of (A) the Caribou Poker Creek Research Watershed (CPCRW) and (B) the ... Figure 1. Map of Alaska indicating.

© 2015 Elsevier, Inc. All rights reserved.

Timeline of 16S rRNA genes represented in the database.

Presentation transcript:

3 A: Whole soil community PLFA profile and B: plated community PLFA profiles of samples obtained from Ritzville soil in the field and greenhouse. ○, field samples with plants; ●, field samples without plants; ◻, greenhouse samples with plants; ◼, greenhouse samples without plants (control). From: Phospholipid fatty acid profiles and carbon utilization patterns for analysis of microbial community structure under field and greenhouse conditions FEMS Microbiol Ecol. 1998;26(2):151-163. doi:10.1111/j.1574-6941.1998.tb00501.x FEMS Microbiol Ecol | © 1998 Published by Elsevier Science B.V. All rights reserved.

1 A: Whole soil communities and B: plated communities of PLFA profiles of two soils from eastern Washington State. ○, Palouse soil under plant influence; ●, Palouse soil with no plant (control); ◻, Ritzville soil (covered with wheat); and ◼, Ritzville soil (fallow plot). Eighteen fatty acids with the most significant contributions were used for these plots. From: Phospholipid fatty acid profiles and carbon utilization patterns for analysis of microbial community structure under field and greenhouse conditions FEMS Microbiol Ecol. 1998;26(2):151-163. doi:10.1111/j.1574-6941.1998.tb00501.x FEMS Microbiol Ecol | © 1998 Published by Elsevier Science B.V. All rights reserved.

4 PLFA profiles from (+) whole soil communities and (○) plated communities from all the samples used in this study. From: Phospholipid fatty acid profiles and carbon utilization patterns for analysis of microbial community structure under field and greenhouse conditions FEMS Microbiol Ecol. 1998;26(2):151-163. doi:10.1111/j.1574-6941.1998.tb00501.x FEMS Microbiol Ecol | © 1998 Published by Elsevier Science B.V. All rights reserved.

5 C source utilization patterns from Palouse and Ritzville soils: Greenhouse Palouse and Ritzville soils under plants (○) and Palouse and Ritzville soils without plants (●). Field: △, Ritzville soil under plants; and ▾, Ritzville soils without plants; ◻, Palouse soil under plants; and ◼, Palouse soil without plants after 72 h incubation at 25°C. Greenhouse data were pooled since there was no separation of data points. From: Phospholipid fatty acid profiles and carbon utilization patterns for analysis of microbial community structure under field and greenhouse conditions FEMS Microbiol Ecol. 1998;26(2):151-163. doi:10.1111/j.1574-6941.1998.tb00501.x FEMS Microbiol Ecol | © 1998 Published by Elsevier Science B.V. All rights reserved.

2 A: Whole soil communities and B: plated communities showing PLFA profiles of samples obtained from Palouse soil in the field and in the greenhouse: ○, field samples with plants; ●, field samples without plants (control); △, greenhouse samples with plants; ▲, greenhouse samples without plants (control). From: Phospholipid fatty acid profiles and carbon utilization patterns for analysis of microbial community structure under field and greenhouse conditions FEMS Microbiol Ecol. 1998;26(2):151-163. doi:10.1111/j.1574-6941.1998.tb00501.x FEMS Microbiol Ecol | © 1998 Published by Elsevier Science B.V. All rights reserved.

6 Results from PCA of field rhizosphere samples from barley (FB), jointed goatgrass (FJ), pea (FP), downy brome (FD), wheat (FW) and greenhouse rhizospheres samples from Palouse and Ritzville soils. Last letters of abbreviation signify same plants as above, GP and GR for greenhouse Palouse and Ritzville respectively. C indicates control soil. From: Phospholipid fatty acid profiles and carbon utilization patterns for analysis of microbial community structure under field and greenhouse conditions FEMS Microbiol Ecol. 1998;26(2):151-163. doi:10.1111/j.1574-6941.1998.tb00501.x FEMS Microbiol Ecol | © 1998 Published by Elsevier Science B.V. All rights reserved.