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1. Tracking endolithic microbiomes to support the sustainabilityand functioning of global drylands

2. Dryland microbiomes reveal community adaptations to desertification and climate change

3. Assessing critical thresholds in terrestrial microbiomes

4. New microbial tools to boost restoration and soil organic matter

5. Symbiotic status alters fungal eco-evolutionary offspring trajectories

6. Climate change impacts on plant pathogens, food security and paths forward

7. UV index and climate seasonality explain fungal community turnover in global drylands

8. Symbiotic status alters fungal eco-evolutionary offspring trajectories

9. Global consortium for the classification of fungi and fungus-like taxa

10. Global consortium for the classification of fungi and fungus-like taxa

11. Global consortium for the classification of fungi and fungus-like taxa

12. Draft genome sequence of Enterobacter ludwigii NCR3, a heavy metal-resistant rhizobacterium

13. Draft genome sequence of Bacillus cereus LCR12, a plant growth-promoting rhizobacterium isolated from a heavy metal- contaminated environment

14. The proportion of soil-borne pathogens increases with warming at the global scale

15. Data associated with Feng et al. 'Temperature thresholds drive the global distribution of soil fungal decomposers'

16. Rocks support a distinctive and consistent mycobiome across contrasting dry regions of Earth

17. Temperature thresholds drive the global distribution of soil fungal decomposers

21. A pioneer calf foetus microbiome

22. A few Ascomycota taxa dominate soil fungal communities worldwide

23. Notes for genera: Ascomycota

24. One fungus, which genes?

25. One fungus, which genes? Development and assessment of universal primers for potential secondary fungal DNA barcodes

26. One fungus, which genes? Development and assessment of universal primers for potential secondary fungal DNA barcodes

29. Climate change impacts on plant pathogens, food security and paths forward

30. Integrating soil microbial communities into fundamental ecology, conservation, and restoration: examples from Australia: Ecological Society of Australia (ESA) and Society of Conservation Biology Oceania (SCBO) joint Conference, Wollongong, Australia, 28 November-2 December 2022.

31. Dryland microbiomes reveal community adaptations to desertification and climate change.

33. New microbial tools to boost restoration and soil organic matter.

34. Climate change impacts on plant pathogens, food security and paths forward.

35. Fire shapes fungal guild diversity and composition through direct and indirect pathways.

36. Symbiotic status alters fungal eco-evolutionary offspring trajectories.

37. Temporal dynamics of soil fungi in a pyrodiverse dry-sclerophyll forest.

38. Temperature thresholds drive the global distribution of soil fungal decomposers.

39. Rocks support a distinctive and consistent mycobiome across contrasting dry regions of Earth.

40. Soil initial bacterial diversity and nutrient availability determine the rate of xenobiotic biodegradation.

43. A pioneer calf foetus microbiome.

44. Plant Microbiomes: Do Different Preservation Approaches and Primer Sets Alter Our Capacity to Assess Microbial Diversity and Community Composition?

45. Comparative Analysis of Structural Variations Due to Genome Shuffling of Bacillus Subtilis VS15 for Improved Cellulase Production.

46. Bacterial and Fungal Communities Are Differentially Modified by Melatonin in Agricultural Soils Under Abiotic Stress.

47. New frontiers in agriculture productivity: Optimised microbial inoculants and in situ microbiome engineering.

48. Linking microbial diversity with ecosystem functioning through a trait framework.

49. A few Ascomycota taxa dominate soil fungal communities worldwide.

50. Antarctic Cryptoendolithic Fungal Communities Are Highly Adapted and Dominated by Lecanoromycetes and Dothideomycetes.

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