51

ECOSYSTEM RESTORATION

FOR FOOD SECURITY

Restoration for improving food security not only includes

land management of forests, ecotones along field edges and

streams, but also in supporting more diversified and resilient

eco-agriculture systems that provide critical ecosystem services

(water supply and regulation, habitat for wild plants and ani-

mals, genetic diversity, pollination, pest control, climate regu-

lation), as well as adequate food to meet local and consumer

needs (UNEP, 2009; Sandhu

et al

., 2010). This includes man-

aging extreme rainfall and using inter-cropping to minimize

dependency on external inputs like artificial fertilizers, pesti-

cides and blue irrigation water and the development, imple-

mentation and support of green technology also for small-scale

farmers (UNEP, 2009; 2010). More efficient irrigation systems

can reduce water consumption by 15–20% without a yield de-

cline (Boumann

et al

., 2007).

Wild crop relatives (UNEP, 2009) can be important in restor-

ing degraded agricultural lands and genetic diversity is likely to

become in creasingly important in future restoration projects.

FAO defines food security as follows: ‘Food security exists

when all people, at all times, have physical and economic ac-

cess to sufficient, safe and nutritious food for a healthy and

active life (FAO, 2003). This involves four dimensions:

Continuing loss of ecosystems services at current rates through land degradation, reduced

amount of water for irrigation, nutrient depletion, declining pollination and lower natural

pest control such as of invasive species could seriously jeopardize world food production

and depress required production by up to 25% by 2050 (UNEP, 2009). Loss of pollina-

tion alone has been estimated to account for a value of 9.5% of the global agricultural out-

put used for human consumption in 2005 (Allen-Wardell

et al

. 1998; Brown and Paxton,

2009; Gallai

et al

., 2009). Restoration of ecosystems and reversing land degradation are of

particular importance to the impoverished, so dependent upon the environment for their

productivity, food security and health (Lal, 2009; UNEP, 2009; Sodhi

et al

., 2010).

adequacy of food supply or availability;

stability of supply, without fluctuations or shortages from

season to season;

accessibility to food or affordability;

utilization: quality and safety of food.

Ecosystems are the very foundation of all agricultural produc-

tion. UNEP has, in the “Environmental food crisis” (UNEP,

2009), described how environmental degradation may lead to

up to 25% reduction in global food production by 2050, higher

food prices, greater volatility and greater regional inequality,

with the greatest impacts on the impoverished and particularly

in Africa. Restoring degraded lands is therefore an utmost pri-

ority (Lal, 2009).

Restoration for food security must address 5 components mainly:

Restoration to reduce infestations of invasive species, pests

and diseases, and restore natural enemies by diversification

of production and species and natural habitats along edges

and in fields including diversified and resilient eco-agricul-

ture systems, including establishing host-plants for natural

predators or active biological control. Indeed, the ecosystem

services value of organic compared to conventional farming

has been estimated 1,610–19,420 USD/ha/year compared to

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