Pond research and management in Europe: "Small is Beautiful" HAL Id: hal-00913144 https://hal.archives-ouvertes.fr/hal-00913144 Submitted on 3 Dec 2013 HAL is a multi-disciplinary open access archive for the deposit and dissemination of sci- entific research documents, whether they are pub- lished or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L’archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d’enseignement et de recherche français ou étrangers, des laboratoires publics ou privés. Pond research and management in Europe: ”Small is Beautiful” Dani Boix, Jeremy Biggs, Régis Céréghino, Andrew P. Hull, Thomas Kalettka, Beat Oertli To cite this version: Dani Boix, Jeremy Biggs, Régis Céréghino, Andrew P. Hull, Thomas Kalettka, et al.. Pond research and management in Europe: ”Small is Beautiful”. Hydrobiologia, Springer, 2012, vol. 689, pp. 1-9. �10.1007/s10750-012-1015-2�. �hal-00913144� https://hal.archives-ouvertes.fr/hal-00913144 https://hal.archives-ouvertes.fr Open Archive TOULOUSE Archive Ouverte (OATAO) OATAO is an open access repository that collects the work of Toulouse researchers and makes it freely available over the web where possible. This is an author-deposited version published in : http://oatao.univ-toulouse.fr/ Eprints ID : 10185 To link to this article : DOI:10.1007/s10750-012-1015-2 URL : http://dx.doi.org/10.1007/s10750-012-1015-2 To cite this version : Boix, Dani and Biggs, Jeremy and Céréghino, Régis and Hull, Andrew P. and Kalettka, Thomas and Oertli, Beat. Pond research and management in Europe: "Small is Beautiful". (2012) Hydrobiologia, vol. 689 (n° 1). pp. 1-9. ISSN 0018-8158 Any correspondance concerning this service should be sent to the repository administrator: staff-oatao@listes-diff.inp-toulouse.fr Pond research and management in Europe: "Small is Beautiful" Dani Boix· Jeremy Biggs ·Régis Céréghino · Andrew P. Hull· Thomas Kalettka ·Beat Oertli The phrase "Small is Beautiful" was fust used by the talented scholar Leopold Kohr (1909-1994), but it became more popular thanks to the essays of one of his students, the British economistE. F. Schumacher, and it was coined as a response to the socially established idea that "Big is Powerful". lt could be argued that this desire for "bigness" exp lains wh y current legal frameworks and the conservation planning and D. Boix (lEI) Institute of Aquatic Ecology, University of Girona, 17071 Girona, Catalonia, Spain e-mail: dani.boix@udg.edu J. Biggs Pond Conservation, Oxford, UK R. Céréghino University of Toulouse, Toulouse, France A. P. Hull Liverpool John Moores University, Liverpool, UK T. Kalettka Centre for Agricultural Landscape Research, Muncheberg, Germany B. Oertli University of Applied Sciences Western Switzerland, Geneva, Switzerland management related to standing waters often overlook ponds, despite their well-known value in terms of biodiversity and socio-economic benefits (Oertli et al., 2004; Céreghino et al., 2008). Of course, this is only one of severa! possible explanations, but it is impor- tant to understand that such long-established ideas can have a lasting effect upon the efficiency of our conservation actions. Beyond this social perspective, the history of science can also provide sorne explana- tion as to why ponds have been undervalued for so long. Sorne of the fust limnological work was undertaken during the late nineteenth--early twentieth century by the Swiss scientist François-Alphonse Forel on the ecology of Lake Geneva (1892, 1895, 1904). From this, one of the fusts treatises of limnology- "Die Binnengewàsser Mitteleuropas" (Thieneman, 1925)-included a chapter on standing waters that included lakes, ponds, pools and bogs, but most of the chapter focussed upon the larger bodies of water-a trend replicated in the limnology books which fol- lowed (e.g. Arévalo, 1929; Naumann, 1932; Ruttner, 1940; Dussart, 1966; Wetzel, 1975; Margalef, 1983). Lakes, therefore, were the "cradle" of limnological studies. During the second half of the twentieth century, the study of limnology broadened to include the ecological processes in rivers and streams, thanks mainly to the H. B. N. Hynes' masterful revision of the subject (Hynes, 1970). Ponds, however, remained overlooked and received significantly less scientific attention than streams, rivers and lakes. This is more surprising when several studies have established that (1) on a global scale they cover a greater total area than lakes (Downing et al., 2006); (2) their typical charac- teristics, such as shallow waters and small size, imply a different ecological functioning (Oertli et al., 2002; S!21ndergaard et al., 2005); (3) they play a major role in global cycles (Downing, 2010) and (4) they have high aquatic biodiversity (Wood et al., 2003 ; Williams et al., 2004). Despite the evidence that ponds perse receive less scientific attention than other water bodies (Oertli et al., 2009), in the scientific literature "ponds" are often included under other terms such as "shallow lakes" ( e.g. Scheffer et al., 1993; Moss et al., 2009) or "wetlands" ( e.g. Gopal et al., 2000; van der Valk, 2006), as in the USA where the term "wetlands" is often used to describe "ponds" (Batzer & Wissinger, 1996 and references therein; Batzer et al., 1999). These more general definitions may significantly reduce the level of scientific interest and could go sorne way to explain sorne of the biases that are regularly observed today in Europe's Water Framework Directive (WFD) (Miracle et al., 2010). Ponds are too small to fit the standard model of site-based protection and they do not fit the standard model of consent-based protection applicable to lakes and running waters under Europe' s most powerful piece of water legislation. In this context, three emerging ideas have to be taken into account in pond management decisions: ( 1) the importance of pond networks in addition to isolated ponds (Gibbs, 2000; Jeffries, 2005); (2) to consider lesser known floral and faunal groups which, nevertheless, contain high biodi- versity (i.e. diatoms, meiofauna and insects), and to use surrogate species with caution (i.e. having sorne idea of their effectiveness for the circumstances in which they will be applied; Favreau et al., 2006; Gascon et al., 2009; Bagella et al., 2011); and (3) differences in the community structure and ecological functioning of water bodies throughout Europe imply, for example, that sorne limnological paradigms used in the manage- ment of cold temperate ponds cannot be generalised to the Mediterranean region (Âlvarez-Cobelas et al., 2005; Brucet et al., 2009, 2010). Ponds, neglected but fascinating habitats Traditionally relatively few stakeholders were impli- cated in the management of ponds. Nowadays, the growing importance of a global society means that information is easy to obtain and not restricted to just a few stakeholders. However, describing the relation- ship between society and ponds is not easy; it requires the work of a multidisciplinary team including not only natural scientists but also social scientists, cultural historians and stakeholders directly involved in the planning process. Although this is an interesting and highly relevant debate, it will not be our principal focus in the present preface. Specifically, we will address first the human attraction and appeal of ponds, and, second, whether or not our genuine fascination and concem over the loss of these vital wetland habitats is adequately projected to an increasingly aware general public. Finally, we will review the various initiatives which have been taken over the past decade to address this issue. Water bodies have attracted the attention of human beings for a long time. In Aristotle's "The History of Animais", he noted several curious observations about ponds and defended the seemingly spontaneous gen- eration of life from mud or sand (referring to "fish", perhaps he had observed fairy shrimps because he was talking about temporary ponds) and rain (talking about eels). Examples of this attraction for ponds can be found in the non-scientific literature, art and popular culture which describe their magnetism. In the first pages of Joseph Kessel' s book "Le Lion", the narra tor feels a spontaneous and irrational desire to go to the pond where many different species of mammals enjoy a peaceful co-existence (Kessel, 1958). Even today, game lodges in East Africa provide tourists with spectacular views of the "water hole" to allow people to see the parade-like sequence of animais (elephants, baboons, waterbucks, warthogs, etc.). Similarly, this powerful attraction is well represented in a popular painting, "Waterhole Dreaming" by Lynda Brown Nabanunga from the Djaru Wa tribe (Western Aus- tralia). It depicts the desert in a period of drought and in order to survive ali of the wildlife and the Aboriginal people of the area have come to the main water hole for water. For the American author Gene Logsdon his book "The Pond Lovers" relates the life histories of people who describe the intense feeling towards water with the words "the attraction to water is in our genes" (Logsdon, 2003). Legends, myths and tales from different human cultures talk about ponds or pond life (e.g. herons and pond fish appear in the tales of the South American Wichi people; hippos and crocodiles in the tales of the Mrican Ndebele people; and beavers and frogs in the tales of North American Sinkiuse Salish people). In sorne areas of Europe ponds are veiled in mystery and fairy creatures were believed to live in them (as the Scottish "Urisk" and "Glaistig", the former ugly and peaceful and the latter beautiful and dangerous; or the Catalan "dones d'aigua", female spirits with dragonfly or butterfly wings who live in ponds or streams and sometimes take care of the children and other times kidnap them). However, they are also the scenario oftraditional tales ("The Talking Pond Fish", a tale explained in severa! parts of Europe with sorne regional differences) and of modem tales ("The Tale of Mr. Jeremy Fisher" by Beatrix Patter, a story of a fishing frog). Ponds have always been the preserve of people. Their size has made them sui table for many human uses and over the past two millennia they have become part of the daily lives of people around the world. However, if ponds provide such fascination and utility for human beings then why do we neglect them more than other habitats? Maybe, both aspects provide the answer: the human attraction to ponds can stimulate the capture of organisms, and the size of ponds allows people to transform and modify them very easily. If ponds have little or no economie function then it is very easy to fill them in. In the United Kingdom after the Second World War, the intensification of agriculture meant that small wetlands were drained or filled in. Modem machinery meant that a pond which had served as a watering hole for livestock for many centuries could be filled in less than a day-from wetland to dry land in a matter of hours. Of course, capturing plants and animais and transforming our landscape is part of human nature, but, we would argue, so is the attraction of wildlife itself. Apart from its recently acknowledged economie value, by the start of the twenty-first century the benefits of nature conservation had assumed a new role---providing succour for a healthy society. Involvement in nature conservation-whether actively or passively, is now seen as a remedy for healthy living and living in a pleasant environment enhances our quality of life. In this sense, ponds provide a manageable human scale habitat in which the impact of local action can be seen in a short space of time. In parts of Europe where nature conservation is well-established, such as the United Kingdom, conservation plans are more easily carried out thanks to greater social sensibility (Drake & Pickering, 1997; Hull, 1999). In such countries, the availability of ad vice and guidance about the natural values of ponds for people of ali ages is widely accessible (e.g. Engelhardt, 1964; Ammann, 1983 ; Jennings, 1985; Deom, 1991 ; Taylor, 1992; Wood & Dean, 1993 ; Biggs et al., 1994; Kolvoort & Gates, 2004) and, increasingly, online. Furthermore, this work is sup- ported by a vast library of nature guides covering the natural world in Europe and providing an informed and readily accessible encyclopaedia of information (e.g. Streble & Krauter, 1985; Fitter & Manuel, 1986; Olsen et al., 1999; Grabow, 2000; Greenhalgh & Ovenden, 2007). Within this vast area of knowledge, ponds are widely acknowledged as important habitats for a wide ranges of plant and animal species- however, pond books perse have been inconspicuous until fairly recently. In the United Kingdom, the standard guide to Ponds was, until the mid-1990s, The Observer's Guide to Pond Life by John Clegg which was fust published in 1956 (Clegg, 1956). This small pocket guide proudly announced in its preface that: There has long been a need, not only among the general public interested in natural his tory, but also among the ever-increasing number of students taking freshwater biology as an aca- demie subject, for a compact, pictorial guide to the identification of aquatic animais and plants. (Clegg, 1956, p. 5). Today, the situation is changing and the treatment of ponds is becoming more prevalent with textbooks describing the biodiversity, composition and functions of ponds (e.g. Bronmark & Hansson, 1998 ; Stoch, 2005) and practical guides to pond management ( e.g. Williams et al., 1999; Wissinger, 1999; Lloyd & Alexander, 2002). However, we would strongly argue that more needs to be done to raise the awareness of ponds and the need for their conservation. As part of this process there is an urgent need to transmit recent research findings into a language understandable by ail stakeholders-whether they are politicians, farmers, planners, school children, amateur naturalists or the general public at large. The threats to ponds are well known (Oertli et al., 2005 ; EPCN, 2007, 2008 ; Nicolet et al., 2007) and, over the past 20 years, several projects at local, regional and European scales have been undertaken to address the principal issues. These initiatives have helped to restore, create, or improve pond manage- ment techniques and to advise stakeholders about the value of these small water bodies. More recently, the emphasis of these projects has moved towards habitat and species recovery and mitigation measures (e.g. Ruhi et al., 2009, 2012; Antôn-Pardo & Armengol, 2010; Gallardo et al., in press; Becerra-Jurado et al., 2011 ). In northern and central Europe, a number of projects have seen a large number of ponds created to reinforce amphibian populations (e.g. Stumpel & Van Der Voet, 1998; Baker & Halliday, 1999; Briggs, 2001 ; Rannap et al., 2009)-and this is a very positive new development. Nevertheless, it can be argued that a more rigorous scientific framework for pond creation is still required (Williams et al., 2008). Another situation that has improved in the last decade is the management and protection of temporary ponds in the Mediterranean region. Severa! authors have established the value of Mediterranean tempo- rary ponds and the need for urgent action to conserve these high-biodiversity habitats (Giudicelli & Thiéry, 1998; Quézel, 1998; Boix et al., 2001 ; Bagella et al., 2010) and, although a lot of work has been completed ( e.g. LIFE projects in Mediterranean continental France, Corsica, Minorca and V alència; Grillas et al., 2004; Fraga et al., 2010; Sancho & Lacomba, 2010) it has not been enough. However, in a scenario of global climate change (GCC) sorne of these threats will continue to grow. Few analyses of the effects of GCC on pond biodiversity or the fonction of pond food webs have been published (but see Moss et al., 2009; Rosset et al., 2010; Rosset & Oertli, 2011 ), although for sorne faunal groups from ponds, such as dragon- flies, amphibians or freshwater reptiles, investigations on the effect of GCC do exist (e.g. Blaustein et al., 2001 ; Hassall et al., 2007 ; Shoo et al., 2011 ; Sommer et al., 2011 ). Fourth conference of the European Pond Conservation Network (EPCN-Berlin Conference, June 2010) After the first EPCN meeting in Geneva 2004 ("Con- servation and Monitoring of Pond Biodiversity"; Oertli et al., 2004, 2005), three more congresses have taken place: Toulouse 2006 ("Conservation of pond biodiversity in a changing European landscape"; Nicolet et al., 2007 ; Céreghino et al., 2008), València 2008 ("Pond conservation: from science to practice"; Oertli et al., 2009 ; Miracle et al., 2010) and, the most recent one in Berlin 2010 ("Eyes of the landscape- the value of ponds in the 21st century"). The last congress was organised by the EPCN and the Leibniz Centre for Agricultural Landscape Research (ZALF), Münche- berg, Germany, with the support of various partners. During the short time that the EPCN has been in existence, the four meetings have attracted an increas- ing number of delegates. The figures of attendance of these four meetings illustrate this trend (Table 1). However, two weak points have to be commented upon. First, more than a half of the participants at the fourth EPCN conference came from on1y three countries (Fig. 1 ). Although the strength of pond research in different countries goes sorne way to explain this trend, at the same time it seems that the EPCN needs to make a greater effort to disserninate the value of the network to other regions (such as Eastern Europe). Second, the conference achieved a high scientific level, but it failed to involve many groups of stakeholders. Whilst, as scientists, we applaud our research effort, it is vital that we make a greater effort to influence and inform those people who have a direct impact upon the European pond resource. Whether they are government officiais, planners, farmers, politicians or school children, we need to be able to provide them with "user-friendly" information which they can understand and apply. In total, the Berlin congress included over 60 oral presentations and a sirnilar number of poster presen- tations dealing with a wide range of tapies including: 1. Pond typology, functions, services in landscapes 2. Methods of ecological monitoring and assessment Table 1 Number of countries, participants and presentations in each EPCN meeting Countries Number of Presentations represented participants Oral Poster Geneva 10 79 23 22 2004 Toulouse 14 60 28 29 2006 Valencia 23 146 38 84 2008 Berlin 22 118 61 64 2010 11% • OII'M coumrles • Slovalda fS:jUK 5% I!El Frwa r2J Bllgium liB Pdlnd o セョ@ P g・セ@ Fia- l Numbe.r of participant& of each cooutry iD 1be last EPCN meetiDg (Berlin. 2010). Uoder 1be category "other countries" we included tbe counlries wbi.ch were イ・ーイ・セcュエ・、@ by less than five participaota. 'I'he8e oountriea were (œdcred by dec:reasing 11umber of participants) : ltaly, Switzerlmd, Norway, Nether- lands, Hunpry, Czech Rqlllblic, Belarus, Swedcn, Portugal, Morocco, Malta, Luxembourg, Lmia, llenm.t 8lld Austti.a 3. Pedogenesis and paloolimnology of ponds 4. Hydrology, biogeochemistry, pollution of ponds S. Habitat functions, biodiversity, bioindication 6. Practical use. conservation, management of ponds 1. Decision aids for policy, legislation, pond users 8. Education on pond function.ing, values, wise use In addition, tbree wotbhops wcre hcld (Wl: ponds as sentinel systems for envirollDlCntal impacts, W2: state and perspectives of pond research and conserva- tion in Germany, W3: role of fish ponds) and two excursions were also offered, auracting a high leve! of participation. This special issue of Hydrobiologia contains a selection of 12 contributions pœsented during the conference. A second selection of manuscriptB will be published in a special issue of the journal Limnologica undcr the title: "Eyes of European landscapes - value, traits, conservation and セョエ@ of ponds". Spedallssue content Like previous selections of manuscripts for the EPCN proceedings, the present proceedings demonsttate the strong relationship between scientific research and "management". It is important to emphasise that scientific research projects do not only produce tools and knowledge requested in management; at the same time, man.agement projects present good opportunities to carry out scienti.fi.c studies. l'hus, some of the selected manuscripts have a clear practical objective (e.g. Teissier et al., this issue), others are basic research studies whose results are needed to improve management strategies (e.g. Jeffries, this issue) and the rest represent basic research performed in the ftamework. of management projects (e.g. Orteils et al., this issue). As a consequence of the implementation of the Habitats Directive and the Water Fr:amework Direc- tive, an important number of faunal and floral invcDlories, water body typologies, bioassess:ment techniques and mODitoring programmes have been generated in the last decade in European Community countries. Although ponds have received less attention than other aquatic ecosystcms, mainly because thcir sizes are not covered by the WFD, this situation has led to proposais for management tools and protocols. In tum, these proposais bighlight some of what is needed to develop the objectives of both directives: preserving wtlkr quality and prioriruing conservation actioru. Some of those requirements are to establish a typology of ponds, to identify reference site charac- terlstics, and to improve k:nowledge of environmental species preferences. Three manuscrlpts of the present selection treat these aspects. Céréghino et al (this issue) compared the biological traits of macroinverte- brates in different biogeographical regions on a European spatial scale (the western Meditcrranean, Central Europe and Britain are included), whi.lst: Lischeid & Kalettk.a (this issue), on a more reduced spatial scale (northeast Germany), developed a clas- sification scheme for kettle holes. Reference sites are difficult to identify in Europe due to high human pressure on aquatic environments. For this reason. information from ne.ighbouring areas is important to avoid the degradation of sites and know their value, but also could help to identify characteristics of well- prese.rved sites and degradation processes. The work ofRhazi. etal. (this issue) assessed poolloss in a region of Morocco and identi.fied. the main obstacles to the conservation of the plant ricbness of these pools. Pond biodiversity loss bas been one of the earliest concems since the creation of the EPCN. Few studies have thoroughly analysed pond biodiversity pro- cesses: they have not only overlooked the gain-loss balance in terms of the number of ponds, but also the historical context. i.e. when they were created or destroyed. Jeffries (this me) performed a comprehensive analysis of this historical process in a region of the UK and compared the plant biodiversity of severa! types of ponds created in different historical moments for different social purposes. The previously mentioned manuscript by Rhazi et al. (this issue) also offered a good approach in this sense. Knowledge of community temporal patterns (i.e. colonisation and succession) pro vides the ecological framework needed to interpret the processes that took, are taking or will take place in a pond or in a pond network, and that have to be considered to reverse the present day scenario ofbiodiversity loss. In this sense, Ortells et al. (this issue) analysed the importance of founder effect, natural selection and genetic drift during the Daphnia magna colonisation process in newly created ponds in Spain. Moreover, Bosiacka & Pieri.kowski (this issue) explored how the characteristics of ponds (i.e. size) or pond networks (i.e. connectivity) determine the mac- rophyte species richness in ponds located in Poland. Management improvements such as tool creation, measures of methodological effectiveness, and the evaluation of the results of monitoring programmes or management experiments were also published in this selection. Peretyatko et al. (this issue) developed an efficient cyanobacterial bloom risk assessment tool for ponds in Brussels, whilst Teissier et al. (this issue) and De Backer et al. (this issue) evaluated phytoplankton- nutrient relationships and the probability of fish recolonisation, respectively, after a biomanipulation project carried out in ponds also located in Brussels. In addition, Florencio et al. (this issue) compared the suitability of two sampling techniques to detect species richness and patterns of diel activity. Finally, two of the manuscripts develop suitable conservation strategies to protect pond flora and fauna or provide necessary information to develop them. Sumberova et al. (this issue) analysed historical and recent data on Tillaea aquatica L. in the Czech Republic, characterised its habitat, studied the seed bank and seed dispersal, and suggested management measures aimed at promoting the survival of this species. On the other hand, Dolgener et al. (this issue) identified management units for conservation of the Bombina bombina (L.) populations in an area of eastern Germany using a genetic approach. These selected manuscripts are a faithful represen- tation of the high diversity and quality of the presentations of the fourth EPCN meeting, and are a sample of sorne of the new insights into pond research and management promoted by the EPCN. 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