Pseudorapidity distributions of all primary charged particles produced in p+p collisions at various Relativistic Heavy Ion Collider (RHIC) and Large Hadron Collider (LHC) energies using UrQMD-3.4 and PYTHIA8.2-generated events are estimated and compared with the existing results of UA5 and ALICE collaborations. With both the sets of generated data, the variation of rapidity widths of different mesons and baryons of p+p collisions at various Super Proton Synchrotron (SPS) and LHC energies with the rest masses of the studied hadrons are presented. An increase in the width of the rapidity distribution of lamda, similar to heavy-ion data, could be seen in p+p collisions as well from SPS to the LHC energies (up to sqrt{s}=13 TeV) when the entire rapidity space is considered, indicating its universal feature both in p+p and A+A collisions. The genesis of the increased width of rapidity distribution of lamda in p+p collision is found to be in the preferential production of light flavored quarks and diquarks from the spectator partons of the colliding hadrons resulting a baryon asymmetry (net baryon density > 0) at the extreme rapidities of the studied p+p collisions. At the LHC energies for central p+p collision, when there is no spectator partons, the rapidity width of lamda is found to take the same Gaussian shape as that of anti-lamda and the widths of both the distributions become the same confirming no non-trivial contribution to the rapidity width of lamda as seen in heavy-ion and non-central p+p collisions.