Can hydrologic management practices of rice fields contribute to macroinvertebrate conservation in southern Brazil wetlands?

The expansion of rice fields is one of the main human activities responsible for the decline of natural wetlands throughout the world. However, rice fields have been recognized as having considerable potential value for many aquatic species. In this sense, an important question from the point of view of biodiversity conservation is the adequacy of these agricultural wetlands as an integrated managed landscape that contributes to maintain a rich biodiversity. The two main questions of this study were: (1) Do richness, density, and composition of macroinvertebrates differ in rice fields with different management practices (flooded and dry)?; and, (2) Do richness, density and composition of macroinvertebrates change in rice fields over the rice cultivating phases? Six collections were carried out in six rice fields with different management practices after cultivation (three dry and three flooded during the fallow phase). The macroinvertebrates were sampled using a corer (7.5-cm diameter) inserted 10 cm into the substratum of the rice fields. We recorded 6,425 macroinvertebrates, comprising 71 macroinvertebrate taxa. Macroinvertebrate richness and density varied over the rice cultivating cycle. The different management practices adopted after cultivation did not influence the macroinvertebrate richness and density; however, they influenced composition. Thus, the mosaic created by the variation of flooded and dry rice fields would provide the setting for a greater number of taxa within the agricultural landscape. The difference in taxa composition between flooded and dry rice fields is an interesting result in terms of biodiversity conservation. Rice producers could maintain part of their agricultural land flooded during the fallow phase. These management practices adopted could be an important strategy for biodiversity conservation in areas where the natural wetlands were converted into rice fields.

[1]  J. Heino Lentic macroinvertebrate assemblage structure along gradients in spatial heterogeneity, habitat size and water chemistry , 2004, Hydrobiologia.

[2]  D. Williams The role of dormancy in the evolution and structure of temporary water invertebrate communities , 1998 .

[3]  C. Heckman The Seasonal Succession of Biotic Communities in Wetlands of the Tropical Wet‐and‐Dry Climatic Zone: V. Aquatic Invertebrate Communities in the Pantanal of Mato Grosso, Brazil , 1998 .

[4]  J. Coulson,et al.  The effect of open drainage ditches on the plant and invertebrate communities of moorland and on the decomposition of peat , 1990 .

[5]  A. E. Greenberg,et al.  Standard methods for the examination of water and wastewater : supplement to the sixteenth edition , 1988 .

[6]  L. Maltchik Three new wetlands inventories in brazil , 2003 .

[7]  L. Maltchik,et al.  Environmental predictors of macroinvertebrate communities in coastal wetlands of southern Brazil , 2008 .

[8]  M. Hill,et al.  Detrended correspondence analysis: an improved ordination technique , 1980 .

[9]  M. L. Ribeiro,et al.  Glifosato: propriedades, toxicidade, usos e legislação , 2002 .

[10]  J. Thompson,et al.  Irrigated Agriculture and Wildlife Conservation: Conflict on a Global Scale , 2000, Environmental management.

[11]  L. Naranjo An evaluation of the first inventory of South American wetlands , 1995, Vegetatio.

[12]  Matthew E. Watts,et al.  Effectiveness of the global protected area network in representing species diversity , 2004, Nature.

[13]  S. Brouder,et al.  Conjunctive use of farmland adds value: Winter flooding of ricelands provides waterfowl habitat , 1995 .

[14]  K. Babbitt,et al.  Macroinvertebrate community structure across a wetland hydroperiod gradient in southern New Hampshire, USA , 2005, Wetlands Ecology and Management.

[15]  F. Amerasinghe,et al.  Biodiversity associated with the rice field agroecosystem in Asian countries: a brief review , 2003 .

[16]  D. Hawksworth The biodiversity of microorganisms and invertebrates: its role in sustainable agriculture. , 1992 .

[17]  C. Heckman Rice Field Ecology in Northeastern Thailand , 1979, Monographiae Biologicae.

[18]  L. Maltchik,et al.  Habitat and landscape factors associated with neotropical waterbird occurrence and richness in wetland fragments , 2007, Biodiversity and Conservation.

[19]  P. Legendre,et al.  SPECIES ASSEMBLAGES AND INDICATOR SPECIES:THE NEED FOR A FLEXIBLE ASYMMETRICAL APPROACH , 1997 .

[20]  P. Teng,et al.  Biodiversity and sustainability of wetland rice production: role and potential of microorganisms and invertebrates. , 1991 .

[21]  J. Edirisinghe,et al.  Biodiversity associated with an irrigated rice agro-ecosystem in Sri Lanka , 2004, Biodiversity & Conservation.

[22]  S. Canton,et al.  Guía para la determinación de los artrópodos bentónicos sudamericanos. H. R. Fernández , E. Domínguez , 2003 .

[23]  J. Bańbura,et al.  Breeding Ecology of Whiskered Terns in Algeria, North Africa , 2002 .

[24]  L. Maltchik,et al.  Environmental Factors as Predictors of Aquatic Macrophyte Richness and Composition in Wetlands of Southern Brazil , 2006, Hydrobiologia.

[25]  D. Batzer,et al.  Invertebrates in freshwater wetlands of North America : ecology and management , 1999 .

[26]  Dave Walden,et al.  Biodiversity of the wetlands of the Kakadu Region, northern Australia , 2006, Aquatic Sciences.

[27]  K. Zimmer,et al.  Factors influencing invertebrate communities in prairie wetlands: a multivariate approach , 2000 .

[28]  K. Cummins,et al.  An Introduction to the Aquatic Insects of North America , 1981 .

[29]  B. E. Davies,et al.  Loss-on-Ignition as an Estimate of Soil Organic Matter1 , 1974 .

[30]  L. Maltchik,et al.  Influence of area, altitude and hydroperiod on macroinvertebrate communities in southern Brazil wetlands , 2007 .

[31]  Chris S. Elphick,et al.  Conservation implications of flooding rice fields on winter waterbird communities , 2003 .

[32]  C. H. Fernando A bibliography of references to rice field aquatic fauna, their ecology and rice-fish culture. , 1993 .

[33]  C. Heckman Rice Field Ecology in Northeastern Thailand: The Effect of Wet and Dry Seasons on a Cultivated Aquatic Ecosystem , 1979 .