Development is a function of water temperature and time. With each day that hatchery or tank water is at a particular temperature, a constant is added to the previous day's cumulative Development Index (DI). This chart (below) shows the relationship between temperature (in tenths of a degree) and the constant that is to be added to DI.
So, for example, at 38.3 degrees, the value of 0.456 is added to whatever the cumulative DI was on the previous day.
As mentioned in the previous page, we've provided Excel and Google Sheets spreadsheets (available here) that will allow you to predict when your alevin/fry will swim up. In what follows, you will want to read the Instructions page (Tab A) and, especially, click on Tab B to access the worksheet called "B. Temp. entry and DI record." If you're using the Excel version of the file, remember to open the file in Excel.
Here's an image of the four tabs at the bottom of the workbook.
As mentioned in the previous page, we've provided Excel and Google Sheets spreadsheets (available here) that will allow you to predict when your alevin/fry will swim up. In what follows, you will want to read the Instructions page (Tab A) and, especially, click on Tab B to access the worksheet called "B. Temp. entry and DI record." If you're using the Excel version of the file, remember to open the file in Excel.
Here's an image of the four tabs at the bottom of the workbook.
In Sheet B (image below), enter the date on which you receive(d) your eggs into cell B4. This should be entered in the "mm/dd" format, e.g., "01/12" would represent January 12. Either hatchery staff or your egg-delivering volunteer will be able to tell you how developed the eggs are on the day you're given them, that is, what their Cumulative DI is. This number is very important and should be entered into cell C5 of sheet B.
From that point forward, all you need to do is enter the daily water temperature into the cell in Column B that corresponds to the correct date. The spreadsheet will automatically calculate the new Cumulative DI.
It is important to enter water temperature data for every day, including weekends and schools breaks, even if you haven't checked the tank temperature. For those days when you don't visit the tank, estimate (or interpolate) the water temperature. So if the temperature was 51 when you left on Friday afternoon and it was 49 when you returned to the classroom on Monday morning, enter a temperature of 50.5 for each of the weekend days.
As your cumulative DI approaches 85, you should remove the front and top foam insulation (this will help stimulate the swim-up instinct), and you need to become very attentive. Look for evidence of fry swimming to the surface. (You may want to review this "Idaho TIC document" to get some help on identifying what swim-up-ready fry look like.) Fry require careful monitoring at this stage and should be inspected several times every day, including weekends and school breaks. If some fry start swimming up, provide the tiniest pinch of food. Remove whatever is not eaten after ten minutes. When fry have begun eating reliably, you can feed them as often as five times a day, but always just the tiniest pinch.
As your fry start to swim up, keep records of the percentage that do so in Column E of Sheet B (and of the percentage feeding in Column F of Sheet B). If you and other teachers keep good records and share those with us, we will be able to analyze these data, and this may allow us to improve the formula that we're presently using to predict swim-up readiness.
And don't let the bottom of the net breeder get too dirty! (More on this later.)
It is important to enter water temperature data for every day, including weekends and schools breaks, even if you haven't checked the tank temperature. For those days when you don't visit the tank, estimate (or interpolate) the water temperature. So if the temperature was 51 when you left on Friday afternoon and it was 49 when you returned to the classroom on Monday morning, enter a temperature of 50.5 for each of the weekend days.
As your cumulative DI approaches 85, you should remove the front and top foam insulation (this will help stimulate the swim-up instinct), and you need to become very attentive. Look for evidence of fry swimming to the surface. (You may want to review this "Idaho TIC document" to get some help on identifying what swim-up-ready fry look like.) Fry require careful monitoring at this stage and should be inspected several times every day, including weekends and school breaks. If some fry start swimming up, provide the tiniest pinch of food. Remove whatever is not eaten after ten minutes. When fry have begun eating reliably, you can feed them as often as five times a day, but always just the tiniest pinch.
As your fry start to swim up, keep records of the percentage that do so in Column E of Sheet B (and of the percentage feeding in Column F of Sheet B). If you and other teachers keep good records and share those with us, we will be able to analyze these data, and this may allow us to improve the formula that we're presently using to predict swim-up readiness.
And don't let the bottom of the net breeder get too dirty! (More on this later.)