1. IntroductionThe major challenge

1. Introduction
The major challenge currently facing agriculture is the need tomaintain
productivity in light of the potential consequences of climate
change and other environmental concerns such as soil degradation
non-point-source pollution, and the loss of biodiversity (Howden et al.,
2007; Tilman et al., 2002).Worldwide, the integration of trees and agricultural
crops into various agroforestry systems is increasingly viewed
as an effective means of maintaining or even increasing crop and tree
productivity under climate change while promoting other ecosystem
services through more sustainable agroecosystems (Nair and Garrity,
2013). When compared with conventional agriculture, agroforestry
systems may indeed increase localwater balance, soil health, visual aesthetics,
and C sequestration (Jose, 2009). Agroforestry also adds a level
of diversity and complexity to the farmland matrix that may increase
the resilience of agroecosystems to climate change effects (Malézieux
et al., 2009; Verchot et al., 2007). Several promising avenues for climate
change adaptation through agroforestry have been identified, but research
in this area remains rare (Schoeneberger et al., 2012). Filling
this knowledge gap could provide scientifically vetted support that
would help improve decision-making with respect to the implementation
of agroforestry systems in agricultural landscapes. Here, we report
on potential beneficial effects of agroforestry on soil biochemical properties
and resilience to disturbance.Wealso determinedwhether differences
in soil biochemical properties would subsequently affect crop
productivity under extreme soil water conditions such as drought and
flooding.