TY - JOUR
T1 - Restoration of damaged drylands through acceleration of biocrust development
AU - Palanački Malešević, Tamara
AU - Meriluoto, Jussi
AU - Mihalj, Ivana
AU - Važić, Tamara
AU - Marković, Rastko
AU - Jurca, Tamara
AU - Codd, Geoffrey A.
AU - Svirčev, Zorica
N1 - Publisher Copyright:
© 2024 Elsevier B.V.
PY - 2024/9
Y1 - 2024/9
N2 - Drylands are limited by water and nutrients and exposed to high solar radiation, which result in sparse vegetation cover, soil erosion, and subsequent land degradation. Land degradation affects human wellbeing, causing health and environmental problems, migrations and increasing socio-economic instability worldwide. The restoration of degraded drylands by induced biocrusts has recently gained increased scientific interest. However, harsh environmental conditions can slow down biocrust development. Thus, it is necessary to investigate and develop methods for the mitigation of harsh environmental factors. This survey and assessment reviews studies on environmental barriers to biocrust development and technological achievements in the acceleration of artificially induced biocrust development through the mitigation of harsh environmental conditions. Climatic conditions, and soil and inoculum properties have been identified as major factors that influence the acceleration of biocrust development and which should be considered when dryland restoration is planned. Activities such as watering, shading, soil stabilization and fertilization, as well as further measures for the survival of the cyanobacterial inoculum have promoted biocrust establishment. The restoration of degraded substrates requires the alignment of amelioration techniques with environmental conditions and inoculum requirements. This study has also identified the need for further optimization of watering and shading technologies, better understanding of the importance of soil properties in biocrust growth, as well as further studies on the most appropriate inoculum type and techniques for mass cultivation and application at field scale. The proposal of a multifunctional solution is proposed that could contribute to the restoration of land and cleaner air and water, by providing an inoculum and suitable microsite environmental conditions for the accelerated establishment of viable biocrusts leading to further development, survival, and to the succession to higher organisms under a wide range of environmental conditions.
AB - Drylands are limited by water and nutrients and exposed to high solar radiation, which result in sparse vegetation cover, soil erosion, and subsequent land degradation. Land degradation affects human wellbeing, causing health and environmental problems, migrations and increasing socio-economic instability worldwide. The restoration of degraded drylands by induced biocrusts has recently gained increased scientific interest. However, harsh environmental conditions can slow down biocrust development. Thus, it is necessary to investigate and develop methods for the mitigation of harsh environmental factors. This survey and assessment reviews studies on environmental barriers to biocrust development and technological achievements in the acceleration of artificially induced biocrust development through the mitigation of harsh environmental conditions. Climatic conditions, and soil and inoculum properties have been identified as major factors that influence the acceleration of biocrust development and which should be considered when dryland restoration is planned. Activities such as watering, shading, soil stabilization and fertilization, as well as further measures for the survival of the cyanobacterial inoculum have promoted biocrust establishment. The restoration of degraded substrates requires the alignment of amelioration techniques with environmental conditions and inoculum requirements. This study has also identified the need for further optimization of watering and shading technologies, better understanding of the importance of soil properties in biocrust growth, as well as further studies on the most appropriate inoculum type and techniques for mass cultivation and application at field scale. The proposal of a multifunctional solution is proposed that could contribute to the restoration of land and cleaner air and water, by providing an inoculum and suitable microsite environmental conditions for the accelerated establishment of viable biocrusts leading to further development, survival, and to the succession to higher organisms under a wide range of environmental conditions.
KW - Biological soil crusts
KW - Cyanobacteria
KW - Habitat amelioration
KW - Inoculum acclimatization
KW - Land restoration
UR - http://www.scopus.com/inward/record.url?scp=85199937812&partnerID=8YFLogxK
U2 - 10.1016/j.catena.2024.108265
DO - 10.1016/j.catena.2024.108265
M3 - Review article
AN - SCOPUS:85199937812
SN - 0341-8162
VL - 244
JO - CATENA
JF - CATENA
M1 - 108265
ER -