Abstract
Vegetation changes and drought are among the most important processes affecting the formation of ecosystems. The main objective of this research was to investigate relationships of field-assessed plant parameters with remotely sensed vegetation cover and an index of drought severity. These relationships were assessed across a range of vegetation types and across seasonal and annual scales in the Khansar region of Isfahan Province, Iran. Vegetation cover was measured by the MODIS Normalized Difference Vegetation Index (NDVI) (extracted from the USGS MOD13Q1 image product), and drought severity was estimated by the Standardized Precipitation Index (SPI) (for intervals of 1, 3, 6, 9, and 12 months). Field-based plant parameters (vegetation cover, production rate, and leaf area index (LAI)) were measured for a range of vegetation types covering a range of conditions (315 sites in total, assessed in 2016), using a 4-pixel method. The correlation between NDVI, SPI, and field plant parameters was evaluated using Pearson correlation. The results indicated that the production rate and LAI were higher in rangelands with fair conditions than in those with degraded conditions and varied in each vegetation type during the year. The highest and lowest production rates were observed in Astragalus-Agropyrum (28 g m−2 year−1) and Artemisia sieberi-Scariola (9 g m−2 year−1), respectively. The correlation between NDVI and plant production varied across plant communities, from 0.552 in Artemisia sieberi-Scariola to 0.865 in Astragalus-Agropyrum. The correlation between NDVI and SPI was highest for 1-month intervals and varied by plant community between 0.622 (p = 0.006) for Scariola-Cousinia and 0.840 (p < 0.001) Astragalus-Agropyrum. In general, the observations revealed that vegetation type, vegetation form, rangeland condition, and the stratification of the region have key roles in drought monitoring.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abatzoglou JT, McEvoy DJ, Redmond KT (2017) The West Wide Drought Tracker: Drought Monitoring at Fine Spatial Scales. Bulletin of the American Meteorological Society. https://doi.org/10.1175/BAMS-D-16-0193.1
Abdi N, Maddah Arefi H, Zahedi Amiri G, Arzani H (2009) Investigation of carbon sequestration content in astragalus rangelands in Gholestankoh of Khansar. Watershed Management Researches 22(83):58-68
Arora VK, Boer GJ (2005) A parameterization of leaf phenology for the terrestrial ecosystem component of climate models. Glob Chang Biol 11(1):39–59
Beck PS, Atzberger C, Høgda KA, Johansen B, Skidmore AK (2006) Improved monitoring of vegetation dynamics at very high latitudes: a new method using MODIS NDVI. Remote Sens Environ 100(3):321–334
Brown JF, Wardlow BD, Tadesse T, Hayes MJ, Reed BC (2008) The vegetation drought response index (VegDRI): a new integrated approach for monitoring drought stress in vegetation. GIsci Remote Sens 45(1):16–46
Bucci SJ, Scholz FG, Goldstein G, Meinzer FC, Arce ME (2009) Soil water availability and rooting depth as determinants of hydraulic architecture of Patagonian woody species. Oecologia 160(4):631–641
Campanella MV, Bertiller MB (2008) Plant phenology, leaf traits and leaf litterfall of contrasting life forms in the arid Patagonian Monte, Argentina. J Veg Sci 19(1):75–85
Simões J, Gutiérrez C (2017) Introductory chapter: goats in arid and mountain areas. Sustainable Goat Production in Adverse Environments: Volume II. Springer International Publishing, New York
Carter MG (1964) Effects of Drouth on Mesquite. RE&M 17(5):275–276
Carter GA (1993) Responses of leaf spectral reflectance to plant stress. Am J Bot 80:239–243
De Jong SM, Jetten V (2007) Estimating spatial patterns of rainfall interception from remotely sensed vegetation indices and spectral mixture analysis. Int J Geogr Inf Sci 21(5):529–545
DeFries R, Townshend J (1994) NDVI-derived land cover classifications at a global scale. Int J Remote Sens 15(17):3567–3586
Doughty CE, Metcalfe D, Girardin C, Amézquita FF, Cabrera DG, Huasco WH, Silva-Espejo J, Araujo-Murakami A, Da Costa M, Rocha W (2015) Drought impact on forest carbon dynamics and fluxes in Amazonia. Nature 519(7541):78–82
Fang X, Zhu Q, Chen H, Ma Z, Wang W, Song X, Zhao P, Peng C (2014) Analysis of vegetation dynamics and climatic variability impacts on greenness across Canada using remotely sensed data from 2000 to 2009. J Appl Remote Sens 8(1):083666
Fay PA, Carlisle JD, Knapp AK, Blair JM, Collins SL (2003) Productivity responses to altered rainfall patterns in a C4-dominated grassland. Oecologia 137(2):245–251
Feizi MT (2018) Ecological Regions of Iran. Research Institute of Forests, Rengelands and Watersheds, Tehran, Iran
Fensholt R, Sandholt I, Rasmussen MS (2004) Evaluation of MODIS LAI, fAPAR and the relation between fAPAR and NDVI in a semi-arid environment using in situ measurements. Remote Sens Environ 91(3–4):490–507
Friedel M (1991) Range condition assessment and the concept of thresholds: a viewpoint. J Range Manag 44:422–426
Gamon JA, Field CB, Goulden ML, Griffin KL, Hartley AE, Joel G, Penuelas J, Valentini R (1995) Relationships between NDVI, canopy structure, and photosynthesis in three Californian vegetation types. Ecol Appl 5(1):28–41
Gamon J, Kovalchuck O, Wong C, Harris A, Garrity S (2015) Monitoring seasonal and diurnal changes in photosynthetic pigments with automated PRI and NDVI sensors. Biogeosciences 12(13):4149–4159
Gerber L (2000) Development of a ground truthing method for determination of rangeland biomass using canopy reflectance properties. Afr J Range Forage Sci 17(1–3):93–100
Ghaseminejad S, Soltani S, Soffianian A (2014) Drought risk assessment in Isfahan Province. J Water Soil Sci 18(68):213–226
Guttman NB (1998) Comparing the Palmer drought index and the standardized precipitation index. JAWRA 34(1):113–121
Hayes MJ (2006) Drought indices. John Wiley & Sons, Inc. https://doi.org/10.1002/0471743984.vse8593
He Y, Guo X, Wilmshurst J (2009) Reflectance measures of grassland biophysical structure. Int J Remote Sens 30(10):2509–2521
Jafari R, Bashari H, Tarkesh M (2017) Discriminating and monitoring rangeland condition classes with MODIS NDVI and EVI indices in Iranian arid and semi-arid lands. Arid Land Res Manag 31(1):94–110
Jagerbrand AK, Molau U, Alatalo JM, Chrimes D (2009) Plant community responses to 5 years of simulated climate change in meadow and heath ecosystems at a subarctic-alpine site. Oecologia 161:601–610
Jenkins J, Richardson AD, Braswell B, Ollinger SV, Hollinger DY, Smith M-L (2007) Refining light-use efficiency calculations for a deciduous forest canopy using simultaneous tower-based carbon flux and radiometric measurements. Agric For Meteorol 143(1):64–79
Ji L, Peters AJ (2003) Assessing vegetation response to drought in the northern Great Plains using vegetation and drought indices. Remote Sens Environ 87(1):85–98
Karamihalaki M, Stagakis S, Sykioti O, Kyparissis A, Parcharidis I (2016) Monitoring Drought Effects on Mediteranean Conifer Forests Using SPOT-Vegetation NDVI and NDWI Timeseries. In: Ouwehand L (ed) Living Planet Symposium, Proceedings of the conference held 9-13 May 2016 in Prague, vol 740. ESA-SP, Czech Republic, p 188
Kargar M, Suresh R, Legrand M, Jutras P, Clark OG, Prasher SO (2017) Reduction in water stress for tree saplings using hydrogels in soil. GEP 5(1):27–39
Kawabata A, Ichii K, Yamaguchi Y (2001) Global monitoring of interannual changes in vegetation activities using NDVI and its relationships to temperature and precipitation. Int J Remote Sens 22(7):1377–1382
Khajedin SJ (1995) Asurvey of the plant communities of the Jazmorian, Iran, using land sat data, Ph. D thesis, University of Reading: Pages
Khaleghi MR, Aeinebeygi S (2016) An assessment of biennial enclosure effects on range production, condition and trend (case study: Taftazan rangeland, Shirvan). IJFSE 6(2):33–40
Kim C, Sharik TL, Jurgensen MF (1995) Canopy cover effects on soil nitrogen mineralization in northern red oak (Quercus rubra) stands in northern lower Michigan. For Ecol Manag 76(1):21–28
Leuschner C, Backes K, Hertel D, Schipka F, Schmitt U, Terborg O, Runge M (2001) Drought responses at leaf, stem and fine root levels of competitive Fagussylvatica L. and Quercuspetraea (Matt.) Liebl. Trees in dry and wet years. For Ecol Manag 149(1):33–46
Li X, Li G, Wang H, Wang H, Yu J (2015) Influence of meadow changes on net primary productivity: a case study in a typical steppe area of XilinGol of Inner Mongolia in China. Geosci J 19(3):561–573
Livada I, Assimakopoulos V (2007) Spatial and temporal analysis of drought in Greece using the standardized precipitation index (SPI). Theor Appl Climatol 89(3):143–153
Lloyd-Hughes B, Saunders MA (2002) A drought climatology for Europe. Int J Climatol 22(13):1571–1592
McCoy RM (2005) Field methods in remote sensing. Guilford, New York
Mcginty WA, Smeins FE, Merrill LB (1979) Influence of soil, vegetation, and grazing management on infiltration rate and sediment production of Edwards plateau rangeland. J Range Manag 32(1):33–37
Mekonnen ZA, Grant RF, Schwalm C (2018) Modelling impacts of recent warming on seasonal carbon exchange in higher latitudes of North America. Arct Sci 4:471–484
Moreno-de las Heras M, Díaz-Sierra R, Turnbull L, Wainwright J (2015) Assessing vegetation structure and ANPP dynamics in a grassland-shrubland Chihuahuan ecotone using NDVI-rainfall relationships. Biogeosci Discuss 12(1):51–92
Morgan JA, LeCain DR, Pendall E, Blumenthal DM, Kimball BA, Carrillo Y, Williams DG, Heisler-White J, Dijkstra FA, West M (2011) C 4 grasses prosper as carbon dioxide eliminates desiccation in warmed semi-arid grassland. Nature 476(7359):202–205
Ollinger S (2011) Sources of variability in canopy reflectance and the convergent properties of plants. New Phytol 189(2):375–394
Pack SM (2009) A MODIS imagery toolkit for ArcGIS explorer, thesis, University of Redlands
Palmer AR, Finca A, Mantel SK, Gwate O, Münch Z, Gibson LA (2017) Determining fPAR and leaf area index of several land cover classes in the Pot River and Tsitsa River catchments of the eastern cape, South Africa. Afr J Range Forage Sci 34(1):33–37
Pantazi XE, Moshou D, Mouazen AM, Alexandridis T, Kuang B (2015) Data fusion of proximal soil sensing and remote crop sensing for the delineation of management zones in arable crop precision farming. Proceeding of 7th HAICTA conference, 765-776, Sep. 17-20, Kavala, Greece
Paruelo JM, Epstein HE, Lauenroth WK, Burke IC (1997) ANPP estimates from NDVI for the central grassland region of the United States. Ecology 78(3):953–958
Peixi S, Hongbin C, Qiaodi Y (2008) Plant community characteristics and their relationships with climate in the Hexi corridor region of northwestern China. Front For China 3(4):393–400
Pelletier JD, Turcotte DL (1997) Long-range persistence in climatological and hydrological time series: analysis, modeling and application to drought hazard assessment. J Hydrol 203(1–4):198–208
Peng D, Wu C, Li C, Zhang X, Liu Z, Ye H, Luo S, Liu X, Hu Y, Fang B (2017) Spring green-up phenology products derived from MODIS NDVI and EVI: Intercomparison, interpretation and validation using National Phenology Network and AmeriFlux observations. Ecol Indic 77:323–336
Peterson DL, Price KP, Martinko EA (2002) Investigating grazing intensity and range condition of grasslands in northeastern Kansas using Landsat thematic mapper data. Geocarto Int 17(4):15–26
Raziei T, Martins DS, Bordi I, Santos JF, Portela MM, Pereira LS, Sutera A (2015) SPI modes of drought spatial and temporal variability in Portugal: comparing observations, PT02 and GPCC gridded datasets. Water Resour Manag 29(2):487–504
Reeves MC, Winslow JC, Running SW (2001) Mapping weekly rangeland vegetation productivity using MODIS algorithms. J Range Manag 54:A90
Reynolds JF, Virginia RA, Kemp PR, De Soyza AG, Tremmel DC (1999) Impact of drought on desert shrubs: effects of seasonality and degree of resource island development. Ecol Monogr 69(1):69–106
Sims DA, Gamon JA (2002) Relationships between leaf pigment content and spectral reflectance across a wide range of species, leaf structures and developmental stages. Remote Sens Environ 81(2):337–354
Soltani koupaei S, Saadati S (2007) Drought mapping over Isfahan province using standardized precipitation index (SPI). Iran J Mater Sci Eng 1(2):64–77
Tabari H, Abghari H, Hosseinzadeh Talaee P (2012) Temporal trends and spatial characteristics of drought and rainfall in arid and semiarid regions of Iran. Hydrol Process 26(22):3351–3361
Ustin SL, Smith M, Jacquemoud S, Verstraete M, Govaerts Y (1999) Geobotany: vegetation mapping for earth sciences. Remote sensing for the earth sciences: manual of. Remote Sens 3:189–233
Van de Griend A, Owe M (1993) On the relationship between thermal emissivity and the normalized difference vegetation index for natural surfaces. Int J Remote Sens 14(6):1119–1131
Walker D, Epstein H, Jia G, Balser A, Copass C, Edwards E, Gould W, Hollingsworth J, Knudson J, Maier H (2003) Phytomass, LAI, and NDVI in northern Alaska: relationships to summer warmth, soil pH, plant functional types, and extrapolation to the circumpolar Arctic. J Geophys Res-Atmos 108(D2)
Wang Q, Adiku S, Tenhunen J, Granier A (2005) On the relationship of NDVI with leaf area index in a deciduous forest site. Remote Sens Environ 94(2):244–255
Wang H, Chen A, Wang Q, He B (2015) Drought dynamics and impacts on vegetation in China from 1982 to 2011. Ecol Eng 75:303–307
Weiss JL, Gutzler DS, Coonrod JEA, Dahm CN (2004) Long-term vegetation monitoring with NDVI in a diverse semi-arid setting, Central New Mexico, USA. J Arid Environ 58(2):249–272
Wu C, Peng D, Soudani K, Siebicke L, Gough CM, Arain MA, Bohrer G, Lafleur PM, Peichl M, Gonsamo A (2017) Land surface phenology derived from normalized difference vegetation index (NDVI) at global FLUXNET sites. Agric For Meteorol 233:171–182
Yeganeh H, jamale Khajedein S, Amiri F, Shariff ARBM (2014) Monitoring rangeland ground cover vegetation using multitemporal MODIS data. Arab J Geosci 7(1):287–298
Zhang A, Jia G (2013) Monitoring meteorological drought in semiarid regions using multi-sensor microwave remote sensing data. Remote Sens Environ 134:12–23
Zhang X, Wu S, Yan X, Chen Z (2017) A global classification of vegetation based on NDVI, rainfall and temperature. Int J Climatol 37(5):2318–2324
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Hadian, F., Jafari, R., Bashari, H. et al. Effects of drought on plant parameters of different rangeland types in Khansar region, Iran. Arab J Geosci 12, 93 (2019). https://doi.org/10.1007/s12517-019-4275-6
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12517-019-4275-6