Apparatus, systems and methods for applying fluid

What is claimed is: 1 . A liquid distribution system for an agricultural implement comprising: (a) a supply tank; (b) a fluid distribution manifold extending along the length of an agricultural toolbar in fluidic communication with the supply tank; (c) a plurality of first pumps, one of the plurality of first pumps in fluidic communication with the fluid distribution manifold; (d) a plurality of switching valves, each of the plurality of switching valves in communication with one of the plurality of first pumps; and (e) one or more bypass lines, each of the one or more bypass lines comprising a second pump configured to direct fluid about one of the plurality of first pumps, wherein the liquid distribution system is configured for individual control of the plurality of first pumps and second pump. 2 . The liquid distribution system of claim 1 , wherein the plurality of first pumps are variable speed positive displacement pumps. 3 . The liquid distribution system of claim 1 , wherein the second pump is a bi-directional pump. 4 . The liquid distribution system of claim 1 , further comprising a plurality of discharges, each of the plurality of discharges in fluidic communication with one of the switching valves. 5 . The liquid distribution system of claim 4 , further comprising a plurality of flow meters, each of the plurality of flow meters in fluidic communication with one of the plurality of first pumps. 6 . The liquid distribution system of claim 1 , further comprising determining an electronic signature of each of the plurality of first pumps, the electronic signature configured to establish volumetric flow from one or more pump characteristics. 7 . The liquid distribution system of claim 6 , wherein the one or more pump characteristics are selected from current applied to a pump motor, voltage applied to the pump motor, displacement, volumetric efficiency, and pump rotational speed. 8 . A liquid application system comprising: (a) a fluid distribution manifold extending along an agricultural toolbar; and (b) a plurality of row units along the agricultural toolbar, each of the plurality of row units comprising: (i) a first positive displacement pump in fluidic communication with the fluid distribution manifold; (ii) a discharge in fluidic communication with the first positive displacement pump; (iii) a bypass line configured to direct fluid around the first positive displacement pump; and (iv) a second positive displacement pump in fluidic communication with the bypass line, wherein use of the first positive displacement pump and second positive displacement pump are selected based on an output flow requirement. 9 . The liquid application system of claim 8 , further comprising a switching valve in communication with the first positive displacement pump. 10 . The liquid application system of claim 9 , wherein the switching valve is a high speed 3-way valve. 11 . The liquid application system of claim 8 , wherein the system is configured to utilize an electronic signature to establish volumetric flow of the first positive displacement pump via an open loop system. 12 . The liquid application system of claim 8 , wherein the second positive displacement pump is a bi-directional pump. 13 . The liquid application system of claim 12 , wherein the system is configured to actuate the second positive displacement pump to reduce flow below a minimum flow of the first positive displacement pump or extend a flow range of the first positive displacement pump. 14 . A system for liquid distribution on an agricultural implement, comprising: (i) a first positive displacement pump; (ii) a switching valve in fluidic communication with the first positive displacement pump; (iii) a discharge in fluidic communication with the switching valve; (iv) a return line in fluidic communication with the switching valve configured to return liquid to a manifold; and (v) a bypass line comprising a second positive displacement pump configured to direct fluid about the first positive displacement pump, wherein the system is configured to utilize an electronic signature to establish volumetric flow of the first positive displacement pump via an open loop system, and wherein the system is configured to actuate the second positive displacement pump to reduce flow below a minimum flow of the first positive displacement pump or extend a flow range of the first positive displacement pump. 15 . The system of claim 14 , further comprising a flow meter in communication with the first positive displacement pump and the switching valve. 16 . The system of claim 14 , wherein the switching valve is a high speed 3 -way valve. 17 . The system of claim 14 , wherein the second positive displacement pump is a bi- directional pump. 18 . The system of claim 17 , wherein the maximum output of the second positive displacement pump is greater than or equal to the minimum output of the first positive displacement pump. 19 . The system of claim 18 , wherein the total output of the first positive displacement pump and the second positive displacement pump is greater than a total system output requirement. 20 . The system of claim 14 , wherein the system selectively actuates the first positive displacement pump and the second positive displacement pump to achieve a desired output flow.