03.Morris               package:popbio               R Documentation

_C_o_n_v_e_r_t_e_d _M_a_t_l_a_b _f_u_n_c_t_i_o_n_s _f_r_o_m _M_o_r_r_i_s _a_n_d _D_o_a_k(_2_0_0_2)

_D_e_s_c_r_i_p_t_i_o_n:

     *Chapter 3*

      '_c_o_u_n_t_C_D_F_x_t'  Box 3.4. Calculate count-based extinction
          probabilities and bootstrap confidence intervals 

     *Chapter 7*

      '_s_t_o_c_h._p_r_o_j_e_c_t_i_o_n'  Box 7.3.  Project stochastic growth from a
          sequence of matrices 

      '_s_t_o_c_h._g_r_o_w_t_h._r_a_t_e'  Box 7.4.  Calculate the log stochastic
          growth rate by Tuljapukar's approximation and by simulation   

      '_s_t_o_c_h._q_u_a_s_i._e_x_t'  Box 7.5.  Estimate quasi-extinction threshold              

     *Chapter 8*

      '_K_e_n_d_a_l_l'  Box 8.2. Kendall's method to correct for sampling
          variation  

      '_b_e_t_a_v_a_l'  Box 8.3. Generate beta-distributed random numbers  

      '_l_n_o_r_m_s'  Box 8.4.  Generate random lognormal values   

      '_s_t_r_e_t_c_h_b_e_t_a_v_a_l'  Box 8.5.  Generate stretched beta-distributed
          random numbers  

      '_v_i_t_a_l_s_i_m'  Box 8.10.  Calculate stochastic growth rate and
          extinction time CDF using vital rates  

      '_m_u_l_t_i_r_e_s_u_l_t_m'  Box 8.11.  Incorporate demographic stochasticity
          into population projections 

