Soil is Not Renewable

- by Friends of the Wild Swan and Swan View Coalition

Soils are the foun­da­tion of ter­res­tri­al life. For­est pro­duc­tiv­i­ty is direct­ly tied to soil con­di­tions. Soil takes thou­sands of years to devel­op and is not “renewable“on a human time scale. Soil is an ecosys­tem in itself that must be healthy in order to pro­vide for healthy forests, grass­lands, and aquat­ic sys­tems. Actions impact­ing such com­plex sys­tems are prone to unin­tend­ed con­se­quences. Giv­en the life-sup­port role soils play, spe­cial care and pru­dence are essential. 

The Nation­al For­est Man­age­ment Act (NFMA) pro­hibits “irre­versible dam­age” to soils as well as “sub­stan­tial and per­ma­nent impair­ment of pro­duc­tiv­i­ty of land.” Loss of soil (ero­sion) and dis­place­ment clear­ly cause “irre­versible dam­age” and “per­ma­nent impair­ment of pro­duc­tiv­i­ty of land.” Loss of coarse woody debris caus­es soil dam­age that can last a cen­tu­ry or more. Soil com­paction neg­a­tive­ly impacts soil pro­duc­tiv­i­ty, over­land flow, ero­sion, stream sed­i­men­ta­tion, and late sea­son flows. Soil com­paction from log­ging can per­sist 50 – 80 years. 

Avoid­ing soil dam­age is the only option; full restora­tion of soil dam­age is not gen­er­al­ly pos­si­ble. Com­pact­ed soils are not com­plete­ly mechan­i­cal­ly restor­able. Mech­a­nized decom­paction is only par­tial­ly effec­tive at decom­pact­ing and can com­pound prob­lems by mix­ing rock and min­er­al soil with top­soil result­ing in long term reduced pro­duc­tiv­i­ty. Replac­ing erod­ed or dis­placed soil is prob­lem­at­ic. Arti­fi­cial coarse woody debris replace­ment is not prac­ti­cal over large areas such as burned clearcuts.

Tim­ber har­vest prac­tices includ­ing road build­ing, log skid­ding and slash dis­pos­al have caused most soil dam­age on for­est lands. 

Nutri­ent recy­cling is a crit­i­cal func­tion of soils that his­tor­i­cal­ly has been dam­aged by treat­ments that neg­a­tive­ly affect the amounts, types, and dis­tri­b­u­tion of organ­ic mat­ter retained on site. Many years of pil­ing and windrow­ing of slash using doz­er blades has removed not only the lit­ter plus duff lay­ers but also the thin lay­er of organ­ic rich min­er­al soil (A hori­zon) from large acreages of forest­ed lands. Guide­lines for retain­ing ade­quate coarse woody debris should be devel­oped based on the site poten­tial and be with­in the his­toric range of vari­abil­i­ty for the fire regime of the site. Coarse woody debris needs to be main­tained at nat­ur­al lev­els in the inter­face zone, with excep­tion grant­ed imme­di­ate­ly around struc­tures and residences. 

Con­trol of live­stock con­cen­tra­tion, espe­cial­ly in sen­si­tive ripar­i­an areas is essen­tial to main­tain­ing soil poros­i­ty and bulk den­si­ty. The moist soils in these areas become com­pact­ed by con­cen­tra­tions of cat­tle in only a few days. Gen­tle upland ridge tops and swales are oth­er “gath­er­ing places” for cat­tle that require spe­cial efforts to con­trol their dis­tri­b­u­tion to pro­tect soils from detri­men­tal compaction. 

The process of nutri­ent cycling on the for­est lands is pri­mar­i­ly effect­ed through fire; this recy­cling is key to for­est and grass­land ecosys­tem health. There­fore, the use of fire when treat­ing veg­e­ta­tion should be in accor­dance with the nat­ur­al fire regime for the site, and organ­ic mat­ter left on site should be with­in the nat­ur­al his­toric range of vari­abil­i­ty for the site type. 

Myc­or­rhizal fun­gi are an essen­tial com­po­nent of pro­duc­tive soil. Most regen­er­a­tion fail­ures may be due to prob­lems with myc­or­rhizae. Mon­i­tor­ing myc­or­rhizae needs to be part of soil con­di­tion assess­ments. Myc­or­rhizae are very tem­per­a­ture sen­si­tive, so soil tem­per­a­tures need to be monitored.

Mon­i­tor­ing of detri­men­tal soil dis­tur­bances needs to include: com­paction, dis­place­ment, rut­ting, severe burn­ing, ero­sion, loss of sur­face organ­ic mat­ter (espe­cial­ly coarse woody debris), soil mass move­ment, soil tem­per­a­ture, and dam­age to micro-bio­log­i­cal com­po­nents of soil (espe­cial­ly myc­or­rhizal fungi). 

Giv­en that mon­i­tor­ing has demon­strat­ed an exten­sive lega­cy of soil dam­age, it is time to include that infor­ma­tion in water­shed health assess­ments. There needs to be an inven­to­ry of where these high­ly dam­aged soils occur and the extent to which they are dam­aged. The For­est Plan needs to quan­ti­fy the acreages by water­shed and do cumu­la­tive effects analy­sis, includ­ing the road sys­tems to under­stand the full impact man­age­ment has had on water­shed health.


Posted

in

by


EJ Communities Map

Map of Coal and Gas Facilities

We are mapping all of the existing, proposed, closed and defeated dirty energy and waste facilities in the US. We are building a network of community groups to fight the facilities and the corporations behind them.

Our Network

Watch Us on YouTube