Add to ORKGIn this chapter, we examine the use of classical methods to study fungal diversity. Classical methods rely on the direct observation of fungi, rather than sampling fungal DNA. We summarize a wide variety of classical methods, including direct sampling of fungal fruitin
Fungi are a diverse group of unique eukaryotic organisms currently accepted as the Eumycota kingdom....
The fungi are one of the great groups of living organisms, comparable in numbers of species, diversi...
Fungi have successfully established themselves across seemingly every possible niche, substrate, and...
In this chapter, we examine the use of classical methods to study fungal diversity. Classical method...
This paper explores the possibility of using molecular techniques to assess fungal diversity in natu...
The last two decades have seen tremendous growth in the development and application of molecular met...
Many species of fungi can cause disease in plants, animals and humans. Accurate and robust detection...
Many species of fungi can cause disease in plants, animals and humans. Accurate and robust detection...
Many species of fungi can cause disease in plants, animals and humans. Accurate and robust detection...
Fungi play key roles in numerous ecosystem functions, and recent advances in the study of fungal div...
A number of methods are available for those researchers considering the addition of molecular analys...
The global bio-diversity of fungi has been extensively investigated and their species number has bee...
The first eukaryotic genome to be sequenced was fungal, and there continue to be more sequenced geno...
The last twenty years have witnessed molecular data emerge as a primary research instrument in most ...
The identification of species is an important goal in taxonomic mycology. Information about each fu...
Fungi are a diverse group of unique eukaryotic organisms currently accepted as the Eumycota kingdom....
The fungi are one of the great groups of living organisms, comparable in numbers of species, diversi...
Fungi have successfully established themselves across seemingly every possible niche, substrate, and...
In this chapter, we examine the use of classical methods to study fungal diversity. Classical method...
This paper explores the possibility of using molecular techniques to assess fungal diversity in natu...
The last two decades have seen tremendous growth in the development and application of molecular met...
Many species of fungi can cause disease in plants, animals and humans. Accurate and robust detection...
Many species of fungi can cause disease in plants, animals and humans. Accurate and robust detection...
Many species of fungi can cause disease in plants, animals and humans. Accurate and robust detection...
Fungi play key roles in numerous ecosystem functions, and recent advances in the study of fungal div...
A number of methods are available for those researchers considering the addition of molecular analys...
The global bio-diversity of fungi has been extensively investigated and their species number has bee...
The first eukaryotic genome to be sequenced was fungal, and there continue to be more sequenced geno...
The last twenty years have witnessed molecular data emerge as a primary research instrument in most ...
The identification of species is an important goal in taxonomic mycology. Information about each fu...
Fungi are a diverse group of unique eukaryotic organisms currently accepted as the Eumycota kingdom....
The fungi are one of the great groups of living organisms, comparable in numbers of species, diversi...
Fungi have successfully established themselves across seemingly every possible niche, substrate, and...