Abstract
Shrub-induced soil property spatial heterogeneity is common in arid and semi-arid ecosystems and aids desertified land restoration. However, the effectiveness of this technique may rely on the plant species used and the habitat conditions present. To assess the degree to which planting two native species, Haloxylon salicornicum and Calligonum polygonoides, facilitates degraded land restoration, soil and herbaceous plant community properties were measured 7 years after planting. Soil samples were extracted at two depths (0–5 and 5–20 cm) from three sub-habitats, i.e., under the shrub canopy, from alleys between shrubs and from the open area. Shrub planting increased the quantity of silt + clay content (30–39 %); enhanced water holding capacities (24–30 %); increased the levels of organic carbon (48–69 %), available nitrogen (31–47 %), available phosphorus (32–41 %), and electrical conductivity (21–33 %); and decreased the pH (7–12 %) and bulk density levels (5–6 %) in the surface layer of soils beneath the canopy. Soil property changes were more significant at the surface (0–5 cm) than in the deeper layer (5–20 cm), and were more pronounced under H. salicornicum than under C. polygonoides. Furthermore, the density and biomass levels of herbaceous plants were 1.1 to 1.2 and 1.4 to 1.6 times greater, respectively, in the shrub alleys than in open area. H. salicornicum induced more robust soil amelioration and herbaceous plant facilitative properties than did C. polygonoides. Artificially planting these shrubs may thus be employed to restore degraded areas of arid regions.
Similar content being viewed by others
References
Abella SR, Smith SD (2013) Annual-perennial plant relationships and species selection for desert restoration. J Arid Lands 5(3):298–309. doi:10.1007/s40333-013-0172-0
Abella SR, Craig DJ, Chiquoine LP, Prengaman KA, Schmid SM, Embrey TM (2011) Relationships of native desert plants with red brome (Bromus rubens): toward identifying invasion reducing species. Invasive Plant Sci Manag 4:115–124. doi:10.1614/IPSM-D-10-00013.1
Abella SR, Craig DJ, Smith SD, Newton AC (2012) Identifying native vegetation for reducing exotic species during the restoration of desert ecosystems. Restor Ecol 20(6):781–787. doi:10.1111/j.1526-100X.2011.00848.x
Allen EB, Steers RJ, Dickens SJ (2011) Impacts of fire and invasive species on desert soil ecology. Rangel Ecol Manag 64:450–462. doi:10.2111/REM-D-09-00159.1
Binkley D, Giardina C (1998) Why do tree species affect soils? The warp and woof of tree–soil interactions. Biogeochemistry 42:89–106. doi:10.1023/A:1005948126251
Cao C, Jiang S, Ying Z, Zhang F, Han X (2011) Spatial variability of soil nutrients and microbiological properties after the establishment of leguminous shrub Caragana microphylla Lam. plantation on sand dune in the Horqin Land of Northeast China. Ecol Eng 37:1467–1475. doi:10.1016/j.ecoleng.2011.03.012
Chen H (2003) Phosphatase activity and P fractions in soils of an 18-year-old Chinese fir (Cunninghamia lanceolata) plantation. For Ecol Manag 178:301–310. doi:10.1016/S0378-1127(02)00478-4
Cheng X, An S, Liu S, Li G (2004) Micro-scale spatial heterogeneity and the loss of carbon, nitrogen and phosphorus in degraded grassland in Ordos Plateau, north western China. Plant Soil 259:29–37. doi:10.1023/B:PLSO.0000020948.66471.2b
Cortina J, Maestre FT (2005) Plant effects on soils in drylands. Implications for community dynamics and ecosystem restoration. In: Binkley D, Menyailo O (eds) Tree species effects on soils: implications for global change, Chapter 6, NATO Science Series. Kluwer Academic Publisher, Dordrecht, pp 85–118
Facelli JM, Temby AM (2002) Multiple effects of shrubs on annual communities in arid lands of South Australia. Austral Ecol 27:422–432. doi:10.1046/j.1442-9993.2002.01196.x
Gómez-Aparicio L, Zamora R, Gómez JM, Hódar JA, Castro J, Baraz E (2004) Applying plant facilitation to forest restoration: a meta-analysis of the use of shrubs as nurse plants. Ecol Appl 14:1128–1138. doi:10.1890/03-5084
Gupta PK (1999) Soil, plant, water and fertilizer analysis. Agro-Botanica Publisher, Bikaner
Jeddi K, Cortina J, Chaieb M (2009) Acacia salicina, Pinus halepensis and Eucalyptus occidentalis improve soil conditions in arid southern Tunisia. J Arid Environ 73:1005–1013. doi:10.1016/j.jaridenenv.2009.05.005
Kar A, Mohrana PC, Singh SK (2007) Desertification in arid western India: current scenario. In: Vittal KPR, Srivasatava RL, Joshi NL, Kar A, Tewari VP, Kathju S (eds) Drylands ecosystem: Indian perspective. Central Arid Zone Research Institute and Arid Forest Research Institute, Jodhpur, pp 1–22
Kassas M (1995) Desertification: a general review. J Arid Environ 30:115–128. doi:10.1016/S0140-1963(05)80063-1
Li J, Zhao C, Zhu H, Li Y, Wang F (2007) Effect of plant species on shrub fertile island at an oasis-desert ecotone in the South Junggar basin China. J Arid Environ 71:350–361. doi:10.1016/j.jaridenv.2007.03.015
Li PX, Wang N, He WM, Krusi BO, Gao SQ, Zhang SM, Yu FH, Dong M (2008) Fertile islands under Artemisia ordosica in inland dunes of northern China: effects of habitats and plant developmental stages. J Arid Environ 72:953–963. doi:10.1016/j.jaridenv.2007.11.004
Rao AS, Singh RS (1998) Climatic features and crop production. In: Faroda AS, Singh MS (eds) Fifty years of arid zone research in India. Central Arid Zone Research Institute, Jodhpur, pp 17–38
Reynolds JF, Virginia RA, Kemp PR, De Soyza AG, Tremme DC (1999) Impact of drought on desert shrubs: effects of seasonality and degree of resource island development. Ecol Monogr 69:69–106. doi:10.1890/0012-9615(1999)069[0069:IODODS]2.0.CO;2
Ruiz TG, Zaragoza SR, Cerrato RF (2008) Fertility islands around Prosopis laevigata and Pachycereus hollianus in the drylands of Zapotitlán Salinas, México. J Arid Environ 72:1202–1212. doi:10.1016/j.jaridenv.2007.12.008
Schlesinger WH, Raikes JA, Hartley AE, Cross AF (1996) On the spatial pattern of soil nutrients in the desert ecosystem. Ecology 77:364–374. doi:10.2307/2265615
Shmida A, Whittaker RH (1981) Pattern and biological microsite effects in two shrub communities, southern California. Ecology 62:234–251
Shumway SW (2000) Facilitative effects of a sand dune shrub on species growing beneath the shrub canopy. Oecologia 124:138–148. doi:10.1007/s004420050033
Singh JP, Soni ML, Rathore VS (2005) Role of shrubs in rehabilitation of degraded lands in hot arid region. In: Prasad SN, Singh RK, Kumar A, Parandiyal AK, Ali S, Somasundaram J, Sethy BK, Sharda VN (eds) Natural resource management for sustainable development in Western India. Allied Publishers, India, pp 169–170
Sokal RR, Rohlf FJ (1995) Biometry: the principles and practice of statistics in biological research. Freeman, New York
Stock WD, Dlamini TS, Cowling RM (1999) Plant induced fertile islands as possible indicators of desertification in a succulent desert ecosystem in northern Namaqualand, South Africa. Plant Ecol 142:161–167. doi:10.1023/A:1009874328546
Su YZ, Zhao HL, Zhang TH (2002) Influencing mechanism of several shrubs and subshrubs on soil fertility in Keerqin sandy land. Chin J Appl Ecol 13(7):802–806
Su YZ, Zhao HL, Zhang TH, Li YL (2004) Characteristics of plant community and soil properties in the plantation choronosequence of Caragana microphylla in Horqin sandy land. Chin J Plant Ecol 28(1):93–100
Su YZ, Zhang TH, Li YL, Wang F (2005) Changes in soil properties after establishment of Artemisia halodendron and Caragana microphylla on shifting sand dunes in semiarid Horqin Sandy Land, Northern China. Environ Manag 36:272–281. doi:10.1007/s00267-004-4083-x
Su YZ, Zhao WZ, Su PX, Zhang ZH, Wang T, Ram R (2007) Ecological effects of desertification control and desertified land reclamation in an oasis-desert ecotone in an arid region: a case study in Hexi Corridor, northwest China. Ecol Eng 29:117–124. doi:10.1016/j.ecoleng.2005.10.015
Titus JH, Nowak RS, Smith SD (2002) Soil resource heterogeneity in the Mojave Desert. J Arid Environ 52:269–292. doi:10.1006/jare.2002.1010
Tornquist CG, Hons FM, Feagley SE, Haggar J (1999) Agroforestry systems effects on soil characteristics of the Sarapiqui region of the Costa Rica. Agric Ecosyst Environ 73:19–28. doi:10.1016/S0167-8809(99)00004-3
UNEP (1997) World atlas of desertification, 2nd edn. United Nations Environment Programme, Nairobi, Arnold, London
Wezel A, Rath T (2002) Resource conservation strategies in agro-ecosystems of semi-arid West Africa. J Arid Environ 51:383–400
Wezel A, Rajot JL, Herbrig C (2000) Influence of shrubs on soil characteristics and their function in Sahelian agro-ecosystems in semi-arid Niger. J Arid Environ 44:383–398. doi:10.1006/jare.1999.0609
Whitford WG, Anderson J, Rice PM (1997) Stemflow contribution to the ‘fertile island’ effect in creosote bush, Larrea tridentata. J Arid Environ 35:451–457. doi:10.1006/jare.1996.0164
Yang ZP, Zhang Q, Wang YL, Zhang JJ, Chen MC (2011) Spatial and temporal variability of soil properties under Caragana microphylla shrubs in the north-western Shanxi Loess Plateau, China. J Arid Environ 75:538–544. doi:10.1016/j.jaridenv.2011.01.007
Zhang TH, Su YZ, Cui JY, Zhang ZH, Chang XX (2006) A leguminous shrub (Caragana microphylla) in semi-arid sandy plain of north China. Pedosphere 16:319–325
Zhao HL, Zhou RL, Su YZ, Zhang H, Zhao LY, Drake S (2007) Shrub facilitation of desert land restoration in the Horqin sand land of Inner Mongolia. Ecol Eng 31:1–8. doi:10.1016/j.ecoleng.2007.04.010
Acknowledgments
This study was conducted as part of the Institute project T 02-22 funded by Central Arid Zone Research Institute, Jodhpur. We wish to thank Director, CAZRI for providing funds and necessary facilities to carry out the study, and B. M. Yadav and Bharu Singh for their assistance in data collection and laboratory work. This manuscript was improved by comments from P. Santra and R. Ravi. Our thanks also to the journal editors and three anonymous reviewers for careful and thoughtful evaluations and suggestions.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Rathore, V.S., Singh, J.P., Bhardwaj, S. et al. Potential of Native Shrubs Haloxylon salicornicum and Calligonum Polygonoides for Restoration of Degraded Lands in Arid Western Rajasthan, India. Environmental Management 55, 205–216 (2015). https://doi.org/10.1007/s00267-014-0372-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00267-014-0372-1