diff --git a/8data.tex b/8data.tex index 3dc39ff9..1aa9807f 100644 --- a/8data.tex +++ b/8data.tex @@ -76,17 +76,14 @@ \subsubsection{Subseasons and Timing of Events} Time steps can be broken into subseason and the ALK can be calculated multiple times over the course of a year: \vspace*{-\baselineskip} -\vspace*{-\baselineskip} \begin{center} - \begin{tabular}{|p{2.37cm}|p{2.37cm}|p{2.37cm}|p{2.37cm}|p{2.37cm}|p{2.37cm}|} \begin{tabular}{|p{2.37cm}|p{2.37cm}|p{2.37cm}|p{2.37cm}|p{2.37cm}|p{2.37cm}|} \hline ALK & ALK* & ALK* & ALK & ALK* & ALK \Tstrut\Bstrut\\ \hline Subseason 1 & Subseason 2 & Subseason 3 & Subseason 4 & Subseason 5 & Subseason 6 \Tstrut\Bstrut\\ \hline - \multicolumn{6}{l}{ALK* only re-calculated when there is a survey that subseason} \Tstrut\Bstrut\\ - \multicolumn{6}{l}{ALK* only re-calculated when there is a survey that subseason} \Tstrut\Bstrut\\ + \multicolumn{6}{l}{ALK* only re-calculated when there is a survey that subseason} \Tstrut\Bstrut\\ \end{tabular} \end{center} @@ -107,7 +104,6 @@ \subsubsection{Subseasons and Timing of Events} \item Reproductive output now has specified spawn timing (in months fraction) and interpolates growth to that timing. \item Survey numbers calculated at cruise survey timing using $e^{-z}$. \item Continuous Z for entire season. Same as applied in version v.3.24. - \item Continuous Z for entire season. Same as applied in version v.3.24. \end{itemize} \subsection{Terminology} @@ -121,12 +117,9 @@ \subsection{Model Dimensions} \hline \#V3.30.XX.XX & \multirow{1}{1cm}[-0.1cm]{\parbox{12cm}{Model version number. This is written by SS3 in the new files and a good idea to keep updated in the input files.}} \Tstrut\\ & \Bstrut\\ - \#V3.30.XX.XX & \multirow{1}{1cm}[-0.1cm]{\parbox{12cm}{Model version number. This is written by SS3 in the new files and a good idea to keep updated in the input files.}} \Tstrut\\ - & \Bstrut\\ \hline \#C data using new survey & \multirow{1}{1cm}[-0.1cm]{\parbox{12cm}{Data file comment. Must start with \#C to be retained then written to top of various output files. These comments can occur anywhere in the data file, but must have \#C in columns 1-2.}} \Tstrut\\ - \#C data using new survey & \multirow{1}{1cm}[-0.1cm]{\parbox{12cm}{Data file comment. Must start with \#C to be retained then written to top of various output files. These comments can occur anywhere in the data file, but must have \#C in columns 1-2.}} \Tstrut\\ & \Bstrut\\ \hline @@ -140,7 +133,6 @@ \subsection{Model Dimensions} \hline 12 & \multirow{1}{1cm}[-0.1cm]{\parbox{12cm}{Vector with the number of months in each season. These do not need to be integers. Note: If the sum of this vector is close to 12.0, then it is rescaled to sum to 1.0 so that season duration is a fraction of a year. If the sum is not equal to 12.0, then the entered values are summed and rescaled to 1. So, with one season per year and 3 months per season, the calculated season duration will be 0.25, which allows a quarterly model to be run as if quarters are years. All rates in SS3 are calculated by season (growth, mortality, etc.) using annual rates and season duration.}} \Tstrut\\ - 12 & \multirow{1}{1cm}[-0.1cm]{\parbox{12cm}{Vector with the number of months in each season. These do not need to be integers. Note: If the sum of this vector is close to 12.0, then it is rescaled to sum to 1.0 so that season duration is a fraction of a year. If the sum is not equal to 12.0, then the entered values are summed and rescaled to 1. So, with one season per year and 3 months per season, the calculated season duration will be 0.25, which allows a quarterly model to be run as if quarters are years. All rates in SS3 are calculated by season (growth, mortality, etc.) using annual rates and season duration.}} \Tstrut\\ & \\ & \\ & \\