Wei-Ming Ni Bo Zhang Donald L. DeAngelis 2016 <p><span>A recent result for a reaction-diffusion equation is that a population diffusing at any rate in an environment in which resources vary spatially will reach a higher total equilibrium biomass than the population in an environment in which the same total resources are distributed homogeneously. This has so far been proven by Lou for the case in which the reaction term has only one parameter, </span><span id="IEq1" class="InlineEquation"><span id="MathJax-Element-1-Frame" class="MathJax" data-mathml="<math xmlns=&quot;http://www.w3.org/1998/Math/MathML&quot;><mi>m</mi><mo stretchy=&quot;false&quot;>(</mo><mi>x</mi><mo stretchy=&quot;false&quot;>)</mo></math>"><span id="MathJax-Span-1" class="math"><span><span><span id="MathJax-Span-2" class="mrow"><span id="MathJax-Span-3" class="mi">m</span><span id="MathJax-Span-4" class="mo">(</span><span id="MathJax-Span-5" class="mi">x</span><span id="MathJax-Span-6" class="mo">)</span></span></span></span></span><span class="MJX_Assistive_MathML">m(x)</span></span></span><span>, varying with spatial location </span><span id="IEq2" class="InlineEquation"><span id="MathJax-Element-2-Frame" class="MathJax" data-mathml="<math xmlns=&quot;http://www.w3.org/1998/Math/MathML&quot;><mi>x</mi></math>"><span id="MathJax-Span-7" class="math"><span><span><span id="MathJax-Span-8" class="mrow"><span id="MathJax-Span-9" class="mi">x</span></span></span></span></span><span class="MJX_Assistive_MathML">x</span></span></span><span>, which serves as both the intrinsic growth rate coefficient and carrying capacity of the population. However, this striking result seems rather limited when applies to real populations. In order to make the model more relevant for ecologists, we consider a logistic reaction term, with two parameters, </span><span id="IEq3" class="InlineEquation"><span id="MathJax-Element-3-Frame" class="MathJax" data-mathml="<math xmlns=&quot;http://www.w3.org/1998/Math/MathML&quot;><mi>r</mi><mo stretchy=&quot;false&quot;>(</mo><mi>x</mi><mo stretchy=&quot;false&quot;>)</mo></math>"><span id="MathJax-Span-10" class="math"><span><span><span id="MathJax-Span-11" class="mrow"><span id="MathJax-Span-12" class="mi">r</span><span id="MathJax-Span-13" class="mo">(</span><span id="MathJax-Span-14" class="mi">x</span><span id="MathJax-Span-15" class="mo">)</span></span></span></span></span><span class="MJX_Assistive_MathML">r(x)</span></span></span><span> for intrinsic growth rate, and </span><span id="IEq4" class="InlineEquation"><span id="MathJax-Element-4-Frame" class="MathJax" data-mathml="<math xmlns=&quot;http://www.w3.org/1998/Math/MathML&quot;><mi>K</mi><mo stretchy=&quot;false&quot;>(</mo><mi>x</mi><mo stretchy=&quot;false&quot;>)</mo></math>"><span id="MathJax-Span-16" class="math"><span><span><span id="MathJax-Span-17" class="mrow"><span id="MathJax-Span-18" class="mi">K</span><span id="MathJax-Span-19" class="mo">(</span><span id="MathJax-Span-20" class="mi">x</span><span id="MathJax-Span-21" class="mo">)</span></span></span></span></span><span class="MJX_Assistive_MathML">K(x)</span></span></span><span> for carrying capacity. When </span><span id="IEq5" class="InlineEquation"><span id="MathJax-Element-5-Frame" class="MathJax" data-mathml="<math xmlns=&quot;http://www.w3.org/1998/Math/MathML&quot;><mi>r</mi><mo stretchy=&quot;false&quot;>(</mo><mi>x</mi><mo stretchy=&quot;false&quot;>)</mo></math>"><span id="MathJax-Span-22" class="math"><span><span><span id="MathJax-Span-23" class="mrow"><span id="MathJax-Span-24" class="mi">r</span><span id="MathJax-Span-25" class="mo">(</span><span id="MathJax-Span-26" class="mi">x</span><span id="MathJax-Span-27" class="mo">)</span></span></span></span></span><span class="MJX_Assistive_MathML">r(x)</span></span></span><span> and </span><span id="IEq6" class="InlineEquation"><span id="MathJax-Element-6-Frame" class="MathJax" data-mathml="<math xmlns=&quot;http://www.w3.org/1998/Math/MathML&quot;><mi>K</mi><mo stretchy=&quot;false&quot;>(</mo><mi>x</mi><mo stretchy=&quot;false&quot;>)</mo></math>"><span id="MathJax-Span-28" class="math"><span><span><span id="MathJax-Span-29" class="mrow"><span id="MathJax-Span-30" class="mi">K</span><span id="MathJax-Span-31" class="mo">(</span><span id="MathJax-Span-32" class="mi">x</span><span id="MathJax-Span-33" class="mo">)</span></span></span></span></span><span class="MJX_Assistive_MathML">K(x)</span></span></span><span> are proportional, the logistic equation takes a particularly simple form, and the earlier result still holds. In this paper we have established the result for the more general case of a positive correlation between </span><span id="IEq7" class="InlineEquation"><span id="MathJax-Element-7-Frame" class="MathJax" data-mathml="<math xmlns=&quot;http://www.w3.org/1998/Math/MathML&quot;><mi>r</mi><mo stretchy=&quot;false&quot;>(</mo><mi>x</mi><mo stretchy=&quot;false&quot;>)</mo></math>"><span id="MathJax-Span-34" class="math"><span><span><span id="MathJax-Span-35" class="mrow"><span id="MathJax-Span-36" class="mi">r</span><span id="MathJax-Span-37" class="mo">(</span><span id="MathJax-Span-38" class="mi">x</span><span id="MathJax-Span-39" class="mo">)</span></span></span></span></span><span class="MJX_Assistive_MathML">r(x)</span></span></span><span> and </span><span id="IEq8" class="InlineEquation"><span id="MathJax-Element-8-Frame" class="MathJax" data-mathml="<math xmlns=&quot;http://www.w3.org/1998/Math/MathML&quot;><mi>K</mi><mo stretchy=&quot;false&quot;>(</mo><mi>x</mi><mo stretchy=&quot;false&quot;>)</mo></math>"><span id="MathJax-Span-40" class="math"><span><span><span id="MathJax-Span-41" class="mrow"><span id="MathJax-Span-42" class="mi">K</span><span id="MathJax-Span-43" class="mo">(</span><span id="MathJax-Span-44" class="mi">x</span><span id="MathJax-Span-45" class="mo">)</span></span></span></span></span><span class="MJX_Assistive_MathML">K(x)</span></span></span><span> when dispersal rate is small. We review natural and laboratory systems to which these results are relevant and discuss the implications of the results to population theory and conservation ecology.</span></p> application/pdf 10.1007/s00285-015-0879-y en Springer Dispersal and spatial heterogeneity: Single species article