This is the second blog post in a series about water sanitation. The goal of this series is to get you reflecting on your own irrigation system before you are faced with a problem. Posts over the next few weeks will focus on identifying problems, interpreting lab tests, on-farm disease monitoring, and water treatment options. These will be good refresher resources, so make sure to bookmark them.
When it comes to talking about disease-related issues in greenhouse crops, one point of confusion is often oven WHICH pathogens CAN be transmitted by water. Some are obvious – we all know Pythium is water-borne. But what about other culprits, like Fusarium or Erwinia? Should you worry about these in your recirculating water?
Read more to find out when to suspect your irrigation water versus other factors when it comes to disease.
You may have heard the term “water-borne” when when discussing irrigation water and disease risks from Fungi, but aren’t sure exactly which pathogens it includes. Join the club.
Generally, there are two types of pathogens we can consider as “water borne” fungi. The first – and most classic definition – are pathogens that are actually motile in water (i.e. produce swimming structures). This includes Pythium and Phytopthora. Both of these diseases are technically classified as “water molds”, being more closely related to algae than to fungi, though they look very much like fungi. They are well adapted to an aquatic environment and can live where irrigation water is stored (cisterns, ponds) for long periods.
Then there are those pathogens that survive for short periods in water and are carried by bulk flow with water and soil debris. We can also consider these water-borne, since they can theoretically carry disease from a single infected bench throughout your whole facility via your irrigation system.
Fusarium, Thielaviopsis, Alternaria, Botrytis, Ascochyta, Rhizoctonia, and Verticillium technically all fall into this second category. Species of Fusarium carried in irrigation water have been conclusively linked to outbreaks of root rots. However, direct links between these other pathogens in irrigation water and disease outbreaks still need to be made in greenhouses – but we shouldn’t rule them out. Other routes – such as splashing via overhead watering, dirty benches or ground covers, and vectoring by tools, shoreflies and fungus gnats – may be more likely transmission sources.
Purely foliar diseases – like powdery or downy mildew – have not been reported from irrigation water, and this is not a known transmission source for these pathogens. Controlling humidity in your greenhouse through proper ventilation, however, is key to preventing and controlling these diseases.
Bacteria in Irrigation Water
Bacteria are another important pathogen type to consider when it comes to your water. Specifically, Erwinia (now known as Pectobacterium carotovum), Xanthamonas and Ralstonia have been shown to infect ornamental greenhouse crops via irrigation water. Some bacteria can remain biologically active in water for over a month if the water is untreated.
Further, bacteria are likely to build up and form what’s known as a biofilm in your pipes and irrigation lines. This can clog emitters, and created losses due to wilting, plant stress, and extra labour. A great article on biofilm can be found here.
What About Viruses?
Most viruses need a mechanical form of transmission to get into the plant. Examples are the piercing mouthparts of vectoring insects (e.g. thrips or aphids), or pruning equipment.
But surprisingly, some viruses have been shown to be spread in recirculating nutrient solutions in greenhouses, infecting the plants via sensitive root tissue without an insect vector. Examples include the highly contagious Pelargonium flower break virus and tomato spotted wilt virus (TSWV). However, high virus loads are needed for this to be a source of transmission.
Generally, managing insect vectors – and your employees – is more important to control the spread of viruses than managing your irrigation water. However, plants exhibiting viral symptoms should be disposed of as soon as possible, to prevent the spread of the virus via all possible transmission routes.
More information on viruses in irrigation water can be found in this scientific article: viruses in irrigation water_2012
When to Suspect Your Irrigation Water is To Blame
As with anything, we have to remember that correlation does not necessarily mean causation. Just because a pathogen is found in your water supply, it doesn’t necessarily mean it’s where your disease pressure is coming from. Here are some things to ask yourself when a disease issue arises (adapted from Hong-pathogensinwater):
- What part of the plant is affected? If it is a root or stem rot, then irrigation water could be to blame if you are sub-irrigating. Overhead watering? Then bacterial leaf spots could also be a result of contaminated water.
- Can a pathogen be detected in water sources? If the level of the pathogen is below the detection limit for a test like DNA analysis, it is unlikely to be at sufficient pressure to cause disease. (However, just because it IS present, doesn’t mean it’s DEFINITELY causing the disease! More on this in a future post).
- Has the identified pathogen been reported to be spread by irrigation AND be able to infect the crop in question? If only ONE of these is true, then irrigation water might NOT be the source of your outbreak. Experience, growing guides and your local extension agent can help answer this.
- Look at the spatial distribution of diseased plants. If only a portion of the crop is irrigated from the suspect water supply, then areas irrigated from different sources should exhibit differences in the number and distribution pattern of diseased plants. If the suspect water is applied over the entire area, such as by ebb-and-flow irrigation of benches, flood floors or overhead sprinkler irrigation, expect a large amount of plants to be affected with a somewhat even distribution (rather than small foci of diseased plants).
Now that you know WHICH pathogens can be spread via your irrigation water, the next step is to learn how to effectively SAMPLE your water, so it can be properly managed as part of a Integrated Disease Management (IDM) program. Stay tuned for a three-parter on water sampling Do’s and Don’ts on the blog soon!