Humans have been growing crops for 10,000 years and in this time we’ve selectively bred for crops which are easier to harvest. In doing this important genes involved in plant defence could have been lost along the way. Palmgren et al. look into the potential for re-introducing old genes into modern crops.
A push for pineapples to be imported into Australia from Malaysia could leave the Queensland pineapple industry at risk.
Posted in Pathogens
Tagged Australia, Erwinia chyrsanthemi, Explode, Exploding Pineapples, Merry Christmas, pathogen, pathogens, phytopathology, Pineapple, Pineapples, plant disease, plant pathogen, plant pathology, Queensland
Ok, so my plan is that this blog will be about my project and journal or news articles I find interesting. However, I want to take a break from that for a second.
In my project I’m using Botrytis pathogens, it’s commonly known as grey mould. Botrytis itself has a musty/damp smell and if you infect leaves they’ll soon smell like rotting leaves (I know, it’s shocking) so imagine my surprise when I come across this:
For my project I am looking into whether a product based on vanilla can elicit defence responses in plants. I covered why there’s research into natural products in my last post.
Posted in Defence, Pathogens, Project
Tagged Botrytis, Botrytis cinerea, Botrytis fabae, broad bean, chocolate spot, Crop Protection, natural, natural products, pathogen, pathogens, phytopathology, plant, plant cells, plant disease, plant infection, plant pathogen, plant pathology, plants, Project, vanilla
Chemical fungicides are currently under threat from new legislation. Loss of fungicides could lead to yield losses in crops due to lack of disease control. Alternative methods in to crop protection currently include the use of natural products which are less likely to damage the environment and be more acceptable by the public.
Posted in Defence, Project
Tagged Crop Protection, European Commission, fungicides, natural, natural products, pathogens, phytopathology, plant disease, plant pathology, plants, Project
Many of us are familiar with the ‘zombie fungus’ (Ophiocordyceps unilateralis) which turns ants into ‘zombies’. The fungus is able to manipulate the ant behaviour to its own ends, which are to find the best spot to release its spores for reproduction, one of these released spores might land on another ant and the cycle can continue. This is not an isolated case and there are other examples this ‘zombifying’ behaviour in animals, it is also seen in plants.
Posted in Pathogens
Tagged Halloween, Happy Halloween, pathogen, pathogens, phytopathology, phytoplasma, phytoplasmas, plant cells, plant disease, plant infection, plant pathogen, plant pathology, plants, plants vs. zombies, zombie, zombies
It’s well known that animals can fight pathogens using immune cells and antibodies which travel around the body in the blood. Plants lack these mobile immune cells and they don’t produce antibodies. So, how do plants defend themselves against pathogens?
(Figure 1, a diseased and resistant leaf, from apsnet.org)